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Key numbers and key words
KEY
NUMBERS
A
~H
J 75Ph03: R 76Bo08:
R 76 BOO8:
~He
6Li
R 76Bo08:
7Be
2
=
3
=
NUCLEAR REACTIONS ,o,**B s s , 6 ~ N i , , L a , , 2 ~ S n , , s o is4Sm(p,X ),E=600 HeY; measured ~(90 o} for production of *,a,3H,3,4,6He,6,7,eLi,TBe,~(E{3He),%),,(E~,O) ; deduced isotopic ratio of ssigma,two-dimensional isospin correlation of ,. Enriched targets. Si detectors. NUPAB A260 446
=
6
R 76Bo08 :
NUCLEAR REACTIONS *o,lIB,ss,64Ni,*'z,'Z4Sn,*Soe*s4Sm(p,X),E=600 MeV; measured ¢(90 °) for production of ',~,3H,3,4,SHe,6,7,,Li,TBe, u(E(3He) ,8),~(E=,8) ; deduced isotopic ratio of ssigma,two-dimensional isospin correlation of e. Enriched targets. Si detectors. NUPAB A260 446 R 76Be22: NUCLEAR REACTIONS OLi(e,e') ,~=0-8 HeY; measured , (E, %) , 8=99.9 o, 140.7o. 6Li levels deduced form factors. Comparison between form factors,~-d cluster model calculations. NUPAB A262 196 76Bo08: NUCLEAR REACTIONS io,11B,ss,64Ni,1,2,1a~Sn , t o o ,S4Sm(p,X),E=600 HeV; measured (90 o) for production of *,~,3H,3,•,6He , s , 7 eLi ,Toe ,e(E(3He),8), e(Ea,8) ; deduced isotopic ratio of ssigma,two-dimensional isospin correlation of ,. Enriched targets. Si detectors. NUPAB A260 446
A
7Li
=
NUCLEAR REACTIONS JH(w-,3nT),E=200 HeY/c; m~asured pair spectra: deduced no evidence for hound trineutron. 3H deduced r~lative capture branching ratio. PRLTA 36 942 76Bo08: NUCLEAR REACTIONS ZO,l*B,SS,6~Ni,lla,,a4Sn,lSO,*s~Sm(p,X),E=600 MeV; measured (90 ~) for prod~ction of *,Z,~H,3,~,~He,6,7,eLieTBe,,(E(3He },8),.(E~,8} deduced isotopic ratio of ssigma,two-dimensional isospin correlation of ,. Enriched targets. Si detectors. NUPAB A260 ~ 6 R 76 BoO8 : NUCLEAR REACTIONS lo,,1~,ss,6~Ni,,,a,,a~Sn ,,so,,s~sm{p,x),E=600 HeY; measured ,(90 o) for production of I,a,3H,3,~,6He,6,7,SLi, TBe,~(E(3He),~},~(E,,,O) ; deduced isotopic ratio of ssigma,two-dimensional isospin correlation of ~. Enriched targets. Si detectors. NUPAB A 2 6 0 ~ 6
A
6He
I
R 76Bi05:
A
~He
WORDS
NUCLEAR REACTIONS 10,l~B,se,64Ni,l,a,~a~Sn ,*so,,s~Sm(P,K),E=600 HeV; measured (900) for production of ",a,3H,3 4,6He,S,7,SLi,TBe ,.(E(~He),%),~(E=,~) ; deduced isotopic ratio of ssigma,two-dimensional isospin correlation of ,. Enriched targets. Si detectors. NUPAB A260 ~ 6
A
~H
=
KEY
NUCLEAR MOMENTS *H; measured p(E)/p(p) in HaO. PRLTA 35 1619 NUCLEAR REACTIONS ,o,**B,Se,6~Ni,,ta,~a4Sn ,,so,,s~Sm(p,X),E=600 HeV; measured ~(90 o) for production of I,a,3H,3,~,~He,6,7,SLi,~Be, o(E(~He),8),o (E~,%) ; deduced isotopic ratio of ssigma,two-dimensional isospin correlation of o. Enriched targets. Si detectors. NUPAB A260 ~46
A
2H
AND
R 76Bo08:
=
7
NUCLEAR REACTIONS lo,,iB,ss,64Ni,,,a,,a4Sn , , s o ,s~sm(p,X),E=600 MeV; measured e(90 ° ) for production of 1,a,3H,3 ,,6He,6,Teeii, TBe #"(E(3He),@), e(Ea, O) ; deduced isotopic ratio of ssigma,two-dimensional isospin correlation of e. Enriched targets. Si detectors. NUPAB A260 446 R 76Bo08: NUCLEAR REACTIONS 10,**B,soe64Ni,t,a,,z4Sn" Isu,*s4Sm(p,X),E=600 HeV: measured e(90 °) for production of *,a,3H,3,',6He,S,7,SLi,TBe,~(E(3He),8),e(Ea, O); deduced isotopic ratio of ssigmaetwo-dimensional isospin correlation of ¢. Enriched targets. Si detectors. NUPAB A260 446 76Ka!~: NUCLEAR REACTIONS * a C ( p , 6 L i ) , ~ 5 1 . 9 HeY; measured e(E(6Li),6). 7Be deduced levels,L. PYLBB 62B 153
KEY
NUMBERS
AND
A =
KEY
WORDS
8
R 76Bo08:
aBe
NUCLEAR REACTIONS xo,,iB,ss,e~Ni,**z,,z+Sn, iso,,s+Sm(p,X),E=600 BEY." measured • (90 o) for production of *,Z,~H,~,+,~He,~,~,~Li, ZBe,~(E(~He},~},~(E~,8} ; deduced isotopic ratio of ssigma,two-dimensional isospin correlation of ~. Enriched targets. Si detectors. NUPAB ~260 qq6 R 76~i0~: NUCLEAR REACTIONS +He(a,=) , (a,p} ,(e,d) ,E=5q.96-55.5~ MeV; • Li(p,p}, (p,p'},{p,d}, (p,~},R=11.65-11.75 MeV; measured ,{E,8). aBe deduced resonance parameters. NUPAR A259 385 NUCLEAR REACTIONS z~g,Z~Si,~zS(p,p} ; measured ~{E|. aBe, lZC,*60,ZONe, 761k01: Z~mg,zsSi,~zS,3~Ar,+oCa deduced systematics of isospin mixing in elastic p-scattering. PRLTA 36 1357
A
9Li
~Be
=
D 76Pi03:
RADIOACTIVITY "Li,*eC,~;N [from ~OBe+**Be, E=30-~O meV]; measured T,/a,delayed 7, de!ayed neutrons. '"N; measured no activity. Radioactive target. N~PAB A259 ~93 J 76VeO~: NUCLEAR mOMENTS "Be; measured hyperfine splitting frequency. Optical pumping. ZEPYA A276 161 NUCLEAR MOMENTS 9Be; measured p. ~mR method. PYLAA 56A ~ 6 76We17: NUCLEAR REACTIONS 9Be(e,,,} ,~=95.8,10~.7 NeV; measured ,. ~Be levels deduced R 78Na25: form factors. RBFSA ~ 2qI NUCLEAR REACTIONS *Li(d,p} ,E=0.613-1.9~8 MeV; measured o{E}. 9Be deduced 76ScI~: resonances. Enriched target. NUPAB A263 389 10
A=
rOBe
R 75Hu18:
rOB
R 76De15:
NUCLEAR REACTIONS 9Be(d,pT),~=1.5 meV; measured pT-coin, lOBe level deduced J,,. CJOPA 13 252 NUCLEAR REACTIONS lOB(p,p'),E=30.3 MeV; measured ,(Ep',8}. *OB deduced leve!s,L,J,~,~. HPACA ~9 227
A 12 B
D 76Ta07: R 76Ta07:
*zC
J 76Ha16: R 75~a~9: 76Ad03: 761k01: 76mo17: 76No02: 760b03: 76Pa05:
t3N
=
12
RADIOACTIVITY *zB; measured ~-assymetry. NUPAB A263 1 NUCLEAR REACTIONS t*B(d,p),E=1.3-3.0 MeV; measured polarization; deduced magnetic substate populations,J-mixing of transferred neutron, reaction mechanism. **B(d,p7} ; measured p7(8), lab deduced sign on Q. PWBa, D~BA calculations. NUPAB A263 1 NUCI.EAR MOMENTS tzC; measured hyperfine fields in Ni,Gd. IMPAC. PYLAA 56A 216 NUCLEAR REACTIONS riB(p,6), (p,p) ,E=1.8-3.0 BeY; measured ~(E,@}. **B{polarized p,~},E - 2.6 MeV; measured polarization, taC deduced resonances. IANFA 39 1736 NUCLEAR REACTIONS *OB(~He,pT),E=4.1 MeV; measured 77-coin. **B(p, 7); measured resonance 7- *zC levels deduced T-branching. PYLBB 62B 29 NUCLEAR REACTIONS z+~g,zasi,3zS(p,p); measured ~(E). SBe,*zC,*60, ZONe, z4Mg,ZeSi,3zs,36Ar,4oCa deduced systematics of isospin mixing in elastic p-scattering. PRLTA 36 1357 NUCLEAR REACTIONS laC,2eSi,4oca,sSNi(e,e'p} ,E=497 meV; measured u,missing energy,recoil momentum. *zc, zeSi,4oCa,SeNi deduced average proton kinetic,separation energies. NUPAB A262 461 NUCLEAR REACTIONS *zc,IsN,t60(p,p'),E=3~.75 MeV; measured ,(Ep'); deduced Q for astrophysical 3a burning rate. tzC,tSN deduced resonances. PRVCA C13 1773 NUCLEAR REACTIONS IzC(p,p'7),E=10.~8 NeV; measured ,(ET). *aC resonance deduced FT/F. Stellar helium burning. PRVCA C13 2033 NUCLEAR REACTIONS *zC{x,~) , (~,a') ,E=39.0,50.5 ~eV; Z4Mg(a,~),(e,~'},E=38.0,50.5 meV; measured ,{@) ; deduced Blair phase shifts. * a C , * ~ C , Z + N g deduced defcrmation ~. YAPIA 23 252 A=
,3C
9
13
NUCLEAR REACTIONS tzC{=,=), (=,~') ,E=39.0,50.5 MeV; z4flg (~,~),(a,=,} ,E=38.0,50.5 MeV; measured ~(0| ; deduced Blair phase shifts. *aC,*3C,a+Mg deduced deformation ~. YAFIA 23 252 NUCLEAR REACTIONS "zC(p,7} ,(P,P'Y) ,E=9-2q M~V; measured ,(Ep,@}. *3N deduced R 76Be28: resonances. Enriched target. NUPAB A263 109 R 76Pa05 :
KEZ
~URBERS
AND
A =
'~C
R 76Da06:
76Ma30: 76No02: R 7~E!09:
* 6C
D 76Fi03:
*6N
R 76Ho13:
160
R 76At 0~: 76Ha 1976 Ik01 :
=
i zF
RADIOACTIVITY 9Li,Z6C,ZTN [from rOBe+fiBs, E=30-40 MeV]; measured T,/z,delayed 7,delayed neutrons, tDN: measured no activity. Radioactive target. NUPAB A259 ~93 R 76Da 13: NUCLEAR REACTIONS z3C(t2C,X),E{cm)=3.1-11.9 MeV; measured ¢(E, Ev) for transitions in 170,ao,alNe,Z~,a4Na,a4~g; deduced total ¢. Optical model, statistical analysis. Ge(Li} detector,enriched targets. NUPAB A265 153 R 76Ei09: NUCLEAR REACTIONS 160 {p,p), (p,p,) , (p,=) ,E=11253-11278,12685-12725, 14500-14645 keY; measured ¢(E,e). *rF deduced resonance ~arameters. NUPAB A263 460
R 76Moi0:
*9 0
D 76Fi03 :
18
NUCLEAR REACTIONS 4aCa(180,*80 ,) ,E=50 ~eV; *sO,~eCa; deduced optical potentials. PYLBB
A =
*DN
17
D 76Fi03:
A= *sO
16
RADIOACTIVITY 9Li,*6C,*TN [from ZOBe+*ZBe, E=30-~O ~eV]; measured T,/a,delayed T,delayed neutrons. *DN; measured no activity. Radioactive target. NUPAB A259 493 NUCLEAR REACTIONS ZDF {n,X} ,E=0.1-10.2 MeV; measured ~(E, ET). ZDFezDO,Z6N deduced transitions. NSENA 60 36 NUCLEAR REACTIONS * ~ C , * 6 0 ( 6 L i , ~ ) , E = 4 5 MaY; measured d~(e) o 160, dUNe deduced •-¢!uster states. YAFIA 23 489 NUCLEAR REACTIONS z60{a,~,)¢~=10~ HeY; measured ¢(E=',8). z60 levels deduced L. PYLBB 62B 155 NUCLEAR REACTIONS ~4~g,aeSi,3zS{p,p); measured ~(E|. 6Be,zzC, 160, ZONe, a4Mg,asSi,3aS,36Ar,4eCa deduced systematics of isospin mixing in elastic p-scattering. PELTA 36 1357 A =
*vO
15
NUCLEAR REACTIONS "SB(~,p),E=1.43-2.9q MaY; measured ¢(E,e),¢(E) for z4C production in CTR. ,SN resonances deduced J,w. NUPAB A261 365 NUCLEAR REACTIONS * * B ( r L i , t ) , z o B ( r L i , d ) , ~ 2 q ~eV; measured o(8). *SN deduced levels,J. Enriched taEget,FRDWBA analysis. NUPAB A262 113 NUCLEAR REACTIONS zSN(e,e,) ,~=60-120 ~eV; measured ,(E, 8). *SN level deduced form factors,effective charge. DWBA,shell model analysis. Enriched target. JPHGB G2 L35 NUCLEAR REACTIONS *~C,*SN,*eO(p,p'),E=3~.75 ~eV; measured ¢(Ep'); deduced Q for astrophysical 3a burning rate. zaC,XSN deduced resonances. PRYCA C13 1773 NUCLEAR REACTIONS z60 (3He,e) ,E=15 ~eV; measured ¢(Ea, e) ; deduced Q. *so deduced levels,S,J,w. JPAGB A7 1183
A
zrN
I~
NUCLEAR REACTIONS **B(~,p),E=1.~3-2.94 MeV; measured ~(E,O),¢(E) for x~C production in CTR. *SN resonances deduced J,,. NUPAB A261 365 76~r02: NUCLEAR REACTIONS z * B ( a , p T ) , ~ I ~ ~eV; measured pT-coin, DSAM. *~C levels deduced Tz/a,J,w,T. ZEPYA A276 351 R 76Ao01: NUCLEAR REACTIONS z~N(d,d'),E=-10.03,11.65 HeW; measured o(Ed',~). *~N deduced isospin forbidden,allowed transitions. RYiBE 61B 437 76Si07: NUCLEAR REACTIONS *3C(p,T ) ,E=1.75 ~eV; measured ~ (ET, e). *~N levels deduced 6,branching ratios. PRVCA C13 2546
76Ko11:
zsO
WORDS
R 76Da06 :
A = *sN
KEY
measured ¢{~) to levels in 61B 213
19
RADIOACTIVITY 9Li,16C,ZTN [from ZOBe+IZBe, E=30-~O HeV]; measured T,delayed neutrons. *DN: measured no activity. Radioactive target. q93 R 76Go 09: NUCLEAR REACTIONS I80(d,pT),E=2 HeY; measured 7T(O,H). *90 level Enriched target. NUPAB A262 21q 76Moi 3: NUCLEAR REACTIONS 19Y(n,X),E=0.1-10.2 HeY: measured ,(E,ET). XgF, deduced transitions. NSENA 60 36
T,/~,delayed NUPAB A259 deduced g. ZDO,16N
KEY
NUMBERS
A = *9F
J 76Br20: R 76Mo13: 760t02: 76~o07: 76Sh12:
*gNe
D 76AI07:
2O~g
19 C o n t i n u e d
20
NUCLEAR REACTIONS * 6 0 ( 6 L i , d ~ ) , ~ 2 8 MeV; measured d~{8). ZONe deduced levels,K,J,w. YAFIA 21 1157 75Ar25: NUCLEAR REACTIONS *60(OLi,d~),E=-35.3 ~eV| measured da(8), nONe deduced levels,J,w. YAFIA 22 2~2 76ArO~: NUCLEAR REACTIONS *2C,160(6Li,d~) ,E=45 MeV; measured d~(8}. *60, nONe deduced a-cluster states. ¥AFIA 23 489 76Co15: NUCLEAR REACTIONS 2 4 ~ g , a 6 ~ g , 2 s S i ( d , 6 L i ) , E = 3 5 HeY; measured ,(8). 2o, aaNe,a4ag levels deduced S ~. DWBA analysis. NUPAB A261 373 76D213: NUCLEAR REACTIONS t3C('aC,X) ,E(cm} =3. I-I 1.9 HeY; measured #(E,ET) for transitions in tTO,ZO,Z|Ne,23,a4Na,a4Mg; deduced total ¢. Optical model,statistical analysis. Ge(Li) d e t e c t o r , e n r i c h e d targets. NUPAB A265 153 76De12: NUCLEAR REACTIONS *60,2o,2aNe,2sSi,3aS(pclarized p,p) ~ measured ¢ ( 8 } , A (8) ; deduced form of spin-orbit potential. 2o, aaNe, asSi, 32S deduced deformation parameters. Optical model,coupled-channels analysis. NUPAB A261 111 7 6 D e 16: NUCLEAR REACTIONS 20Ne(p,p'),E=24.5 MeV; measured ,(Ep',8). nONe deduced levels,J,~,~. HPACA 49 241 NUCLEAR REACTIONS a4Mg,asSi,3zS(p,p); measured ¢{E). SBe,*aC,~60, zONe, 76Ik01: ~4~g,a8Si,~aS,36Ar,~oCa deduced systematics of isospin mixing in elastic p-scattering. PRLTA 36 1357 76In05: NUCLEAR REACTIONS *60(~,T},E=6.93 ~eV; measured stopping ,,G(ET). 2oNe level deduced FT,F~,T. Ge(Li) detector. NUPAE A265 93 NUCLEAR REACTIONS lOB(*aC,d) ,E=45 MeV; measured ,(Ed, 8). 22Na deduced critical 76K103: angular momentum. ZONe deduced level energies, spins of high-spin states. Enriched target. NUPAB ~262 157 NUCLEAR REACTIONS 2~Mg(=,SHe),E=126.9 MeV; measured ~{E(aHe)); deduced Q. aOMg R 76Tr03: deduced mass excess. PYLBB 61B 353
2*F
D 76FaIO-
niNe
R 76D213: 76Fr09: J 76Hu04:
22o
R 76Hii0:
22Ne
R 76Co15: 76De12: R 76K103:
21
RADIOACTIVITY Z*F,39CI: measured CP,~T(e); deduced Fermi matrix elements. 39K transition deduced 8. ZPAAD A277 173 NUCLEAR REACTIONS ,3C('2C,X) ,E(cm} =3. I-I 1.9 MeV; measured ¢(E,E7) for transitions in *rO,ZO,aLNe,a3,a4Na,24Mg; deduced total ¢. Optical model,statistical analysis. Ge(Li) d e t e c t o r , e n r i c h e d targets. NUPAB A265 153 NUCLEAR REACTIONS *sO (~,n) ,E=4.7 MeV; measured IT, ¥T (8) ,recoil distance, a*Ne deduced branching r a t i o s , 6 , T , / a , t r a n s i t i o n strengths. NUPAB A261 471 NUCLEAR MOMENTS 2*,mONa; measured Q. Laser spectroscopy. CHDBA 282 119 A =
22Na
WORDS
R 75Ar20:
A =
a*Na
KEY
NUCLEAR ~OMENTS *~F; measured sign,magnitude, temperature dependence of uuclear g u a d r u p o l e interaction for 197-key 5/2+ state. Coulomb excited,oriented *"F implanted in Zn. NUPAB A265 35 NUCLEAR REACTIONS *gF(n,X),E=0.I-10.2 Me~; measured -(E,ET). *gF,*90,*6N deduced transitions. NSENA 60 36 NUCLEAR REACTIONS **N(3He,np),E=6.5,7.0,7.8 Me~; measured np(8),,(Ep,8). ~gF deduced levels,J,~. Natural target. NUPAB A259 452 NUCLEAR REACTIONS ~s~(m,T),E=~.465,4.618 MeV: measured ~(8),DSA. "~F resonances deduced transitions,6,T,/a. CJPHA 54 938 NUCLEAR REACTIONS *gF(T,n),E=13-21 MeV; measured ,(E, En). *gF resonances deduced F. CJPHA 5~ 1178 R A D [ O A C T I V I T Y *gNe [from 19F(p,n)]; measured IT; deduced ~-branching,log ft. PRVCA C13 2593
A =
ZONe
AND
22
NUCLEAR REACTIONS *sO(loO,*40),E=100 MeV; measured 9; deduced Q. zao deduced mass excess. PRLTA 37 130 NUCLEAR R E A C T I O N S a4Mg,Z68g,2sSi(d,6Li) ,E=35 MeV; measured .(e). 2o,ZaNe,24Mg levels deduced S ~. DWBA analysis. NUPAB A261 373 NUCLEAR REACTIONS leO,aO,2aNe, aSSi,3aS(p¢larized p,p); measured ¢(6),A{8); deduced form of spin-orbit potential, zo, aaNe ,asSi ,32 s deduced deformation parameters. Optical model,coupled-channels analysis. NUPAB A261 111 NUCLEAR REACTIONS *OB(*aC,d} ,E=45 MeV; measured o(Ed, 8}. anna deduced critical angular momentum, zONe deduced level energies, spins of high-spin states. Enriched target. NUPAB A262 157
KEY N U M B E R S
AND KEY WOR~S
A = ZaNa
R 76Ma23:
NUCLEAR REACTIONS *gF(~,n~} ,E=9.1 ~eV; measured ¢(ET,8),linear polarizatiou,DSA. ZZNa deduced levels,K,J,~,2,/~,7-branching,Q. A =
~Na
R 76Da13:
D 76Ge06: R 76Da13:
Z~Mg
R 76Ea14 : 76Ba22: 76Co15: 76Da13: 76~o07: 76Ik01: 76Ki0~: 76Le07: 76Pa05: 76Roi I :
153
24
25
NUCLEAR ~OMENTS 2*,ZSNa; measured Q. Laser spectroscopy. CHDBA 282 119 NUCLEAR REACTIONS a6~g(160,12C) ,(160,13C), (160, t4C), (160,13N), 26~g (160, t4N), (*60,1SN) , (160, t6N), (t60,1 7N), (160, *sO), (t 60, t 60), 26~g(.60,I?0), (.60,Ie0) , (.60,.7F) ,(,60 .e?) ,3osi{160,**C},E=126 MeV, a6Mg(l*B,"Li),(llB,gBe),E=114 ~eV; measured ¢(e}. aTMg, aTAl, aSMg, aSNa levels deduced S. Optical model, DWBA analysis. Enriched target. NUPAB A261 511 R 76Ba14: NUCLEAR REACTIONS z4,zsMg(T,p) ,(7,~) ,ZS~g(T,d)~Z4, zs, Z6Mg(~,T.},E<30 MeV; measured particle spectra,,(~,Ep),o(E,Ea),,(E,Ed), a4, zs, a6Mg GDR deduced particle- hole, isospin configurations. Enriched targets. NUPAB A261 149 76Be 18: NUCLEAR REACTIONS z4~g,3aS(d,p| ,E=12 MeV; measured ,(Ep,8),8=100 or 12.5 ° . zsMg,33S deduced energy leve!s,J,L,w,F. Enriched Z4Mg target. NUPAB A263 93 76Le07: NUCLEAR REACTIONS z4,as,Z6Mg(e,e') ,E=22.9-119.7 MeV; measured ¢(E, 8). a4,~s,a6Mg deduced rms radii,form factors. DWBA analysis. Enriched targets. JPHGB G2 105 76Le I 1: NUCLEAR REACTIONS aSMg{e,e'),E=61.9-119.3 MeV: measured ,(E, 8). 2SMg levels deduced radial parameters,B(E2),form factors. DWBA analysis,Nilsson model comparison,enriched target. JPHGB G2 341 NUCLEAR REACTIONS a6Mg(*60,*aC} ,(160,13C}, (160,14C), (160,13N), 76Si05: a6Mg (.60,1.N}, (160,*sN) , (160,16N) ,(160,17N), {.60, IsO}, (160,160), • 6Mg (160,170),(160,1e0} ,(*60,*TF} ,(160,*aF} ,3oSi(160,1"C),E=126 MeV, 26Mg(IIB,gLi),(IIB,gBe} ,E=114 HeY; measured o { e ) . 27Mg, a?Al, aSMg,aSNa levels deduced S. Optical model, DWBA analysis. Enriched target. NUPAB A261 511
J 76HuO~:
R 76Si05:
aSMg
23
RADIOACTIVITY ~ N a ; measured E~,shape factor, T,/a; deduced Q. zTSi; measured T./2. NHI~A 134 309 NUCLEAR REACTIONS ~3C(*aC,X),E(cm}=3.1-11.9 MeV; measured ,(E,ET) for transitions in *70,ao,alNe,a~,m~Na,~Kg; deduced total $. Optical model,statistical analysis. Ge(Li| detector,enriched targets. NUPAB A265 153 NUCLEAR REACTIONS z~,ZSMg(7,p) , (7,~) ,~S~g(7,d),a~,as, a6Mg (T,~.),E<30 MeY; measured particle spectra,,(E,Ep} ,~(E,Ea),,(E,Ed). a~ as,Z6Mg GDR deduced particle- hole, isospin configurations. Enriched targets. NUPAB A261 149 NUCLEAR REACTIONS laC([aC,p),(laC,a),E=-14-22 ~eV; measured ~(E). ~ M g deduced resonances. JPSLB 37 L 131 NUCLEAR REACTIONS a ~ M g , a 6 ~ g , a s S i ( d , 6 L i ) , ~ 3 5 ~eV; measured ,(8). zo, aZNe,a4Mg levels deduced S a. DNBA analysis. NUPAB A261 373 NUCLEAR REACTIONS *mC(*aC,X),E(cm)=3. I-I 1. g MeV: measured ,(E,E~) for transitions in * ~ O , a O , a l N e , a 3 , a ~ N a , ~ g : deduced total ,. Optical model,statistical analysis, Ge(Li) detector,enriched targets. NUPAB A265 153 NUCLEAR REACTIONS *aC(*60,~),E=40-46 Me~; measured ,(E} for 8=7o. Z~Mg levels deduced F. aESi deduced coherence widths. Hauser-Feshbach calculations,fluctuation analysis. NUPAB A262 125 NUCLEAR REACTIONS a4Mg,~ESi,3zS(p,p); measured $(E}. 8Be,*aC,*60, aONe, z*Mg,zeSi,~zS,~6Ar,*oCa deduced systematics of isospin mixing in elastic p-scattering. PRLTA 36 1357 NUCLEAR REACTIONS ~ M g ( d , d ) ,(d,d') ,E=60.6,77.3,90,60-80 ~e~ in 2-MEW steps; measured ,(Ed,O) ; deduced optical potentials, a4Mg deduced guadrupole deformaticn,coupling parameters. NUPAB A262 1 NUCLEAR REACTIONS z~,~s,aeMg(e,e'),E=22.9-119.7 ~eV; measured ,(E,e). ~ , ~ s , ~ 6 M g deduced EroS radii,form factors. D~BA analysis. Enriched targets. JPHGB G 2 !05 NUCLEAR REACTIONS *~C (e,~), (a,~') ,E=39.0,50.5 MeV; Z~Mg (~,a) , (~,~'} ,E=38.0,50.5 MeV; measured ~(8) : deduced Blair phase shifts. ' ~ C , * 3 C , Z ~ g deduced ~eformation ~' YAFIA 23 252 NUCLEAR REKCTIONS ~mNa(p,a) ,~=677,739 keY; aTAl(p,a},E=295,327,%05 keV; measured ~(8) yields, a~Mg,aESi resonances deduced F~. PRAMC 6 146 A =
aSNa
CJPHA 54 1134
NUCLEAR REACTIONS ~C(*~C,X),E(cm|=3.1-11.9 MeV; measured ,(E, ET) for transitions in * 7 0 , a o , a l N e , a ~ , ~ N a , ~ M g ; deduced total ¢. Optical model,statistical analysis. Ge(Li} detector,enriched targets. NUPAB A265 A =
a*Na
22 Continued
KEY NUMBERS AND KEY WORDS
A = 2sHg
R 76Ts03:
2SA!
R 76Ts03:
NUCLEAR REACTIONS 24Hg(19F, 16E) ,(tPF,160) , (*~F, 19F),E=92 2SHge2SA1 levels deduced S. PRVCA C13 2568 NUCLEAR REACTIONS a~Mg(*PF,~SF),(*PF,*sO), (*PE,*PF),E=92 2SMg,aSAl levels deduced S. PE~CA C13 2568 A =
26Mg
R 76Ba14:
76Gui0: 76Le07: Z6Al
R 76Sh17:
27A1
zTsi
measured
,(@) .
MeV;
measured ~(8}.
26
27
NUCLEAR REACTIONS Z6Hg(160,laC) ,('60,'3C), (160,'4C), (160,'3N), 26Mg (160,,,N), (*60,16N), (,60,,6N), (160,* 7N), (160, *sO), (, 60, x60), Z6Mg{160,170),(160,,eO) ,(,60,17F) ,(160,16p) ,30Si(160 , 14C),E=126 HeY, z6Hg(11B,PLi),(11B,PBe),E=114 HeY; measured ,(8). 27Mg,a7Al, aSMg, ZSNa levels deduced S. Optical model, DWBA analysis. Enriched target. NUPAB A261 511 NUCLEAR MOMENTS 89Y,sPCO, aTAI; measured hyperfine fields in pseudobinary J 760p01: compounds. NMR method. PLRBA B13 4698 NUCLEAR REACTIONS adMg(~,p7 ) ,E=9.0 HeV; measured ~(ET),T polarization, aZA1 R 74Pr17: levels deduced J,w,K,6. JPAGB A7 1151 NUCLEAR REACTIONS '2C (*60,pT),E(cm)=11.0-15.0 HeY; measured ¢(E, Ep,ET). aTA1 76Lu03: levels deduced J limits. PRVCA C13 2564 NUCLEAR REACTIONS 27Al(p,p'),26Si(p,p'),E=16.000, 20.000 HeY; measured ,(Ep'). 76Mo09: 27AI,ReSi deduced levels. Enriched targets. NUPAB A259 413 NUCLEAR REACTIONS 26Mg(160,12C) ,(,60,13C), (,60, t~C), (,60,13N), 76Si05: a6Mg (160,14N), (.60,1sN) , (,60,16N) ,{160,,1N), (160, IsO), (160,160), a6Mg (160,1T0), (160,180) , (160,'TE) ,(*60,1aF) ,30Si(Z60,*dC),E=126 HeY, 26Hg(I*B,PLi),(I*B,PBe),E=114 HsV; measured ,(8). 27Hg,ZTAl, aSMg,aSNa levels deduced S. Optical model, DWBA analysis. Enriched target. NUPAB A261 511 RADIOACTIVITY adNa; measured E~,shape factor,Ti/2; deduced Q. a7Si; measured D 76Ge06: T,/a. NUIMA 134 3 0 S E 76Si05:
A = zaSi
HeY;
NUCLEAR REACTIONS zd,zSHg[T,p),(7,a) ,aSMg(7,d),z4 as, a6Mg(T,T,),E<30 HeY; measured particle spectra,,(E,Ep),#(E,Ee),#{E, Ed). ad,as,z6Mg GDR deduced particle- hole,isospin configurations. Enriched targets. NUPAB A261 I%9 NUCLEAR REACTIONS laC(|eO,~),E=43.2-q5.9 HeY; measured G(E) at Olab=7U. a6Mg deduced levels,K,J,w. Hauser-Feshbach calculations, suggested J,r values. NUPAB A262 96 NUCLEAR REACTIONS ad,as,a6Hg(e,e'} ,E=22.9-119.7 He~; measured ,(E,8). a#,as,z6Hg deduced rms radii,form factcrs. D~BA analysis. Enriched targets. JPHGB G2 105 NUCLEAR REACTIONS ZTAl(p,d),E=35 HeY; measured ~(Ed,~). a6AI deduced levels,L,J,~,S. Magnetic spectrograph. HUPAB A263 293 A =
2*Mg
25 Continued
28
NUCLEAR REACTIONS adHg(6L~,da),E=24.5 HeV; measured da(8). 2sSi deduced levels,J,~,Fa. ¥AYIA 21 1169 NUCLEAR REACTIONS *zC(160,'60),*60(*aC,*zC),E(cm)=15-33 Me¥; measured q(E,8}. 76Ch13: zeSi deduced resonances,J,r. PYLBB 62B 289 NUCLEAR REACTIONS IsO,2O,22NeeReSi ,3aS(polarized p,p} ; measured , (8) ,A(8} ; 76De12: deduced form of spin-orbit potential, ao, zaNe, zsSi, 3zS deduced deformation parameters. Optical model,coupled-channels analysis. NUPAB A261 111 NUCLEAR REACTIONS *zc(160,~),E=40-46 HeY; measured 6(E) for 8=7 ° . ZdHg levels 76Go07: deduced r. 28Si deduced coherence widths. Hauser-Feshbach calculationsefluctuation analysis. NUPAB A262 125 NUCLEAR REACTIONS adHg,28Si,3zS(p,p}; measured ~(E). 8Be, laC, 160,2ONe, 76Ik01: 2~Hg,Zesi,3aS,36Ar,4OCa deduced systematics of isospin mixing in elastic p-scattering. PELTA 36 1357 NUCLEAR REACTIONS 27AI(p,p') ,2oSi(p,p'} ,E=16.000, 20.000 HeY; measured ,(Ep'}. 76Mo09: 27Ai,2sSi deduced levels. Enriched targets. NUPAB A259 413 NUCLEAR REACTIONS *2C,26Si,4OCa,SeNi(e,e'p),E=497 MeY; measured ,,missing 76Mo17: energy,recoil momentum. *zC, zsSi,*OCa,SaNi deduced average proton kinetic, separation energies. NUPAB A262 461 NUCLEAR REACTIONS 24Hg(160,lzC),E=36,42,48 H e Y ; measured ,(E(*ZC),e). 76Pe05: 2sS[ (160,12C),E=36,42, q8,53 MeV; measured ,(E(Izc),%). aaSi,3zS levels deduced S. DWBA analysis. NUPAB A264 312 76Roi I: NUCLEAR REACTIONS 23Na(p,a),E=677,739 keY; aTAl(p,a),E=295,327,405 keY; measured =(8) yields, zdMg,2eSi resonances deduced F=. PRAMC 6 146
R 75Ar21:
KEY NUSBERS AND KEY WORDS
k =
a~Al
R 76Be16:
NUCLEAR REACTIONS ~e~g(a,pT ) ,E=-I~.2 ~eV; measured pT(O),ET,IT, linear polarization. ~DAI deduced levels,J,w,5,T-branching. Enriched target. Ge(Li) Compton polarimeter. PRVCA C13 1792
A
~ap
~as
=
RADIoAcTIvITY ~ P ; measured ~ . ~UI~A 133 279 RADIOACTIVITY ~zP,+~Y,~+,~Ga; measured E~o NUIRA 133 ~57 RADIOACTIVITY 32P,sss,+sca; measured IB spectra. JPHGB G2 ~3 NUCLEAR REACTIONS aDSi(=,p7) • E=12-80,12-93, 16.30 NeY; measured PT(@),DSA,T-ray decay. ~ap deduced levels,T,/a,J,w,T-branchings, mixi~g ratios. Enriched target. NUPAB A260 12~ NUCLEAR REACTIONS *~O,aO,ZaN~,aaSi,~aS(p¢lazized p,p); measured ,(O),A(8); R 76De12: deduced form of spin-orbit potential, ao, aaN~,aoSi, 3~S deduced deformation parame%ers. Optical model,coupled-channels analysis. NUPAB A261 111 76Ik01: NUCLEAR REACTIONS a~g,zsSi,aaS(p,p) ; measu=ed ~(E). SBe,~aC,*sO,aONe, ~+~g,zaSi,saS,3~Ar,+oca deduced sysfematics of isospin mixing in elastic p-scattering. PRLTA 36 1357 76Pe05 : NUCLEAR REACTIONS a + ~ g ( ~ O , * a C ) , E = 3 6 , ~ 2 , ~ 8 ~eV; measured ~(E(*ac),e). • aSi (*~0,*~C},E=36,~2,48,53 ~eV: measured ,(E(~aC),%). aaSi,~a s levels deduced S. DWBA analysisl NUPAB A26~ 312
R 76Bo18:
~C!
=
3sC!
NUCLEAR REACTIONS 3H(ssCi,pT),(~sCl,dT),(mSCl,~7),E=55 ~e~; measured recoil distance,particle T-coin. 3 ~ , ~ C I , ~ * S levels deduced T~/~. JPHGB G2 131 D 76Wi08: RADIOACTIVITY ~Cl,~am-K,~Zm,+aSc,~V,SOMn; measured T,/a- Compared with systematics. PRVCA C13 2517
76Po04: 76Pr05: R 76Me12:
D
R 76Co11: 76No03: 76Sp06: 76Ve01:
36Ar
R 76Hu01: 76Ik01: 76No03:
35
RADIOACTIVITY 3zP,sss,+sCa; measured IB spectra. JPHGB G2 43 RADIOACTIVITY ~sca,sss; measured IBS. NaI(TI) spectrometer. JPHGB G2 331 NUCLEAR REACTIONS 3+S(p,T),E=0.7-2.01 MeV; measured 6(E,ET, 8),DSA. 3sC1 deduced resonances,levels,J,w,T112,T-hranching, 6. Enriched targets. NUPAB A264 13 A =
36Ci
3q
R 76Co11:
A = 3~S
33
NUCLEAR REACTIONS Z+Mg,~S(d,p) ,E=12 ~ e V ; m~asured ¢(Ep,0),0=10 ° o r 12.5 u. 2SMg,~mS deduced energy levels,J,L,,,F. Euriched ~ g target. NUPAB A263 93
A ~S
32
D 76Bi06: 76Ro12: 76Po0~: R 76Va09:
k =
~S
29
36
NUCLEAR REACTIONS 3H(SSCl,pT),(SsCl,dT), (ssCl,a~),E=55 ~eV; measured recoil distance,particle T-coin. s7,36CI,3+S levels deduced TI/z. JPHGB G2 131 NUCLEAR REACTIONS 33S(~,nT),(a,P7),E=6.0-I~.0 MeV; measured ,(E,ET,8),TT-coin,recoil distance ,linear polarization, a~Ar,36C1 deduced leve!s,J,w,T,2a,6,T-branching. Ge(Li) detectors,enriched targets. JPHGB G2 249 NUCLEAR REACTIONS 3sC!(Folarized n,T} ,SSCl (n,T},E=thermal: measured ET,I~,7-CP; deduced Q, polarization function R. 36Ci levels deduced 7-hranching,J,r,6. Natural targets. NUPAB A26q 63 NUCLEAR REACTIONS 4oCa,sTCl(SNe,~7),E=18 MeV; measured o(ET),a~-coin. 36C1 deduced levels,J,w,B(k),T-branching. ~gCa deduced levels. PRVCA C13 461 ~UCLEAR REACTIONS 3SCl(P,7 ) ,E=2.36-2.42 MeV; measured ,(E, ET}. 36At deduced resonances,J,w,T,6,B(M1). PR~CA C13 1786 NUCLEAR REACTIONS a4~g,aaSi,saS(p,p) ; measured q(E}. aBe,*aCe160,aoNe, Z+Mg,aeSi,SzS,m6Ar,+oca deduced systematics of isospin mixing in elastic p-scattering. PELT& 36 1357 NUCLEAR REACTIONS msS(~,nT) ,(a,PT| ,E=6.0-14.0 ReV; measured • (E, E7,8) ,77-coin,recoil distance, linear polarization, aeAr, seC1 deduced levels,J,~,T,la,6,T-branching. Ge(Li} detectors, enriched targets. JPHGB G2 249
KEY
NUMBERS
A
~Cl
38 K
=
39 K 39Ca
=
38
NUCLEAR REACTIONS a~Al{z+N,n2pT} ,E=~O HeY; measured TT-coin, recoil distance. 3eAr deduced levels,J,w,Tl/a,6. PRVCA C13 1 9 ~ D 76 Wi08: RADIOACTIVITY 3~CI,3Sm-K,+am,+zSc,+~V,SO~n ; measured Tz/a. Compared with systematics. PRVCA C13 2517 R 76Ri05: NUCLEAR REACTIONS +sea(polarized d,~),E=5.9-6.8 HeW; measured o(E}. ~SK level deduced J,~. PRVCA C13 2077
39
D 76Fai0:
RADIOACTIVITY 2zF,39CI; measured CP,~7(@ ) ; deduced Fermi matrix elements, a"K transition deduced ~. ZPAAD A277 173 NUCLEAR REACTIONS +u,+a,++,+sCa(d,3He) ,+o,++Ca(d,t),E=52 MeV; measured ¢(8). R 76Do05: 39,+l,+3,+VK,39,+3Ca deduced levels,J,~,L,T,/2,S. Enriched targets. NUPAB A263 210 NUCLEAR REACTIONS +o,+a,++,+eCa(d,3He),+o,++Ca(d,t),E=52 MeV; measured ¢(8). R 76Do05: 3",+',+3,+~K,~9,+3Ca deduced levels,J,w,L,Tz/z,S. Enriched targets. NOPAB A263 210 76 VeO 1 : NUCLEAR REACTIONS +oCa,3VCl(~He,~7} ,E=18 Me~; measured o(ET),~7-coin. 3oCi deduced levels,J,r,B(k),T-branching. 39Ca deduced levels. PRVCA C13 ~61
+OAr
R 76So03:
+oK
R 76Bo21:
+oca
R 76Ik01: 76Im03:
76Hol 7:
R 76Do05:
76Me09: R 76Br15: 76Me09: 76Mu05:
40
NUCLEAR REACTIONS +OAr(p,p'T),E=6.75 MeV; m~asured p'7-coin, DSA. 4OAr levels deduced Tz/2,J,B(X ) . JPHGB G2 117 NUCLEAR REACTIONS Z+Hg (,gF,n2p) ,asSi ( Z+N,2p} ,E=~2,38 NeV; measured 17 (e,H). +OK level deduced g-factor. Enriched 2+Ng target,Ge(Li} detectors. NUPAB A26~ 151 NUCLEAR REACTIONS 2+~g,2sSi,3aS(p,p); measured ~(E). aBe, zzC, Z60,2ONe, a+Hg,aeSi,3aS,36Ar,+oca deduced systematics of isospin mixing in elastic p-scattering. PRLTA 36 1357 NUCLEAR REACTIONS *eO(3aS,7),E=65,85 MeV; +oca(z2C,T},E=33-48 MeV; measured ¢. 3zS(zeO,pn),(zeO,2n) ,E=42 HeY; measured ¢ ratio. +aCa(12C,pn), (*aC,2n),E=33-48 MeV; measured absolute ¢. +oCa(zaC,2p),(zaC,3p), (*aC,n2p) , (zzC,~p) , {*2C,~), (zaC,p), E=38,~3,48 MeV; deduced relative ,. ZPAAD A277 117 NUCLEAR REACTIONS *zC,asSi,+oca,seNi(e,e,p} ,E=497 HeV; measured o, missing energy,recoil momentum. *zC, aaSi,+oca,SeNi deduced average proton kinetic,separation energies. NUPAB A262 ~61 A =
+ZCa
37
76Koi0:
A =
+*K
WORDS
NUCLEAR REACTIONS m~CI(p,p'),E=-15.0 ~eV; 3+S(~,p),E=18.0 MeV; measured ~. 3TC1 ded, ced levels,J,w,L. RRPQA 20 959 76Co 11 : NUCLEAR REACTIONS ~H{3sCl,pT),(3SCl,d~), (3sC!,aT),E=55 ~eV; measured recoil distance, particle y-coin. ~ , 3 ~ C I , ~ + S levels deduced T~/a. JPHGB G2 131
A =
~CI
KEY
R 75Av03:
A
3SAt
AND
ql
NUCLEAR REACTIONS +o,+2,+4,+8Ca(d,3He),+o,++Ca(d,t},E=52 MeV; measured 9(8). 39,+*,+3,+TK,39,+3Ca deduced levels,J,~,L,~,/a,S. Enriched targets. NUPAB A263 210 NUCLEAR REACTIONS 39K(t,p7 ) ,~=3.0 ~eV; 27AI[160,2pT}, (*60, npT),E=34 ~eV; measured ~7,recoil distance,~SA. +ZK,+*Ca deduced levels, T1/a,J. Natural targets. Si,Ge(Li) detectors. NUPAB A260 307 NUCLEAR REACTIONS +zCa(~,2nT),(a,n~T),(~,a'7),E=31 MeV; measured 7(t),yT(t). ++Ti level deduced T,/z,effective charge. +z,saCa levels deduced Tx/z- Pulsed beam electronic timing,enriched target,Ge(Li} detectors. NUPAB A262 189 NUCLEAR REACTIONS 3gK(t,pT ) ,E=3.0 MeV; ZTAI ('60,2p7), {zeO, nPT),E=3q ~eV; measured RT,recoil distance, ESA. +'K,+*Ca deduced levels, T,/a,J, Natural targets. Si,Ge(Li) detectors. NUPAB A260 307 NUCLEAR REACTIONS +oCa(n,T),E=-2.5-300 keV; measured ,(E,ET}; deduced valence component. +*Ca deduced resonance parameters,L,J,w,F. NUPAB A259 365
~EY
NUMBERS
AND
A = ~zCa
R 76Be13: 76Br15: 76Fo04: 76Ro06:
~aSc
D 76Wi08:
~Ca
~Ti
R 76Do05 :
NUCLEAR REACTIONS ~ o , ~ , ~ , ~ s C a ( d , ~ H e ) , * u , ~ C a ( d , t ) , E = 5 2 •" , ~ * , ~ , ~ K , 3 ~ , * 3 C a deduced levels,J,~,L,T,/z,S. Enriched 210 R 76Do05 : NUCLEAR REACTIONS ~ o , ~ , ~ , , s C a ( d , ~ H e ) , ~ o , ~ C a ( d , t ) , E = 5 2 ~",~*,~,~K,~9,~Ca deduced l e v e l s , J , ~ , L , T ~ a , S . Enriched 210 76TaO~: NUCLEAR REACTIONS ~Ca(~He,aT),E=-15 MeV; m~asured ~T(8) o 6,B(k),J. PRVCA C13 2262
~sSc
~STi
~eV; measured ~(8). targets. NUPAB A263 MeY: measured ~(8). targets. NUPAB A263 ~3Ca levels deduced
44
R 76Fo04:
NUCLEAR REACTIONS ~SAr(~,~) ,~=6-15 ~eV: ~OAr(a,T),E=5.5-11. I MeV: • STi (a,7),E=6-12 ~eV: measured ~(E,E~,8). ~ z , ~ C a , saCr deduced resonances,J,~,F,GDR. Enriched m~Ar,~S~i targets. NUPAB A263 349 D 75Gu24: RADIOACTIVITY ~ T i ; measured 7(t). ~ S c level deduced T~I z. ~ S c , ; S A s , 1 3 1 , * 3 3 C s , l * O y b , * 8 ~ R e , * 9 ~ A u : calculated B(A). IJOPA 13 334 R 76Br15: NUCLEAR REACTIONS ~zCa(a,2nT),(~,naT) ,(=,='¥),E=-31 HeY; measured ~(t),¥~(t) o • ~Ti level deduced T,/a,effective charge. ~*,*aCa levels deduced T,i a. Pulsed beam electronic timing,enriched target,Ge(Li} detectors. NUPAB A262 189 76Fr08: NUCLEAR REACTIONS ~oca(~,~),E=7.035-7.~05 MeV~ measured o(E, 8). ~ T i deduced resonances,J,w,F. ZEPYA A276 317 A =
~SCa
42
~3
A =
~Ca
WORDS
NUCLEAR REACTIONS ~ K ( a , p 7 ) , ~ = 1 ~ , 1 5 ~le'~; measured pT(8),DSA. ~zCa deduced levels,K,J,~,T,/z,Q,7-branching,6,B(k). ZEPYA A276 295 NUCLEAR REACTIONS *2Ca(~,2nT),(a,naT),(a,~'7),E=31 MeV: measured 7(t),7~(t). • ~Ti level deduced T,~a,effecfive charge. *~,~aCa levels deduced T,/a. Pulsed beam electronic timing,enriched target,Ge(Ii} detectors. NUPAB A262 189 NUCLEAR REACTIONS ~8Ar(=,T),E=6-15 ~eV: ~OAr(a,T),E=5.5-11.1 HeY; ~sTi (a,T),E=6-12 MeV: measured ¢(E,ET,~). ~ z , ~ C a , sacr deduced resonances,J,w,F,GDR. Enriched ~ A r , ~ S ~ i targets. NUPAB A263 3~9 NUCLEAR REACTIONS asSi(*~O,2p} ,E=36-42 ~eV; measured E;, I;, TT-coin, 7¥(8),T(6). • aCa deduced levels,J,w,5,~-branching,E(E2). PRYCA C13 1922 RADIOACTIVITY 3 ~ C l , ~ m - K , ~ m , ~ a S c , ~ 6 V , S o ~ n : measured T,/~. Compared with systematics. PR~CA C13 2517
A =
~K
KEY
45
76Po04: 76Pr05: R 76Ch07: D
RADIOACTIVITY 3zP,35S,4SCa: measured IB spectra. JPHGB G2 43 RADIOACTIVITY 4SCa,3SS: measured IBS. NaI(TI) spectrometer. JP~GB G2 331 NUCLEAR REACTIONS 4zCa(~,pT),E=10.5 NeV; measured e(Ep, E¥,8),~(t). 4SSc deduced levels,J,w,T,/z,6,T-branching,B(~1 ) ,B(E2). JOPQA 37 303 76To04: NUCLEAR REACTIONS 4aCa(~,pT} ,E=I0.5 MeV: measured ,(ET, Ep, 8),DSA. 4sSc deduced levels,T112,B(X) ,7-branching ratios,J,6. Enriched target. NUPAB A262 307 R 76Nh01: NUCLEAR REACTIONS 4sSc 4 7 4 9 , S O T i , s g C o ,64Ni ,6sCu(p,nT), 47Ti, s'V(p,p'7), ~eTi (d,pT),S°Ti(d,nT) ,E=3.5-5 ~eV; measured ¥(t). 4s, 4 ; , 4 g T i , ~ , ~ , s u , s l ~ , S g N i " e~Cu,6sZn levels deduced T,~ z. NUPAB A260 189 A =
46 Sc
D 76K104:
• 6v
D 76Wi08:
46
RADIOACTIVITY 46Sc,6OCo: measured 77(t). 46~i, 6ONi levels deduced T,12. NUIMA 134 525 RADIOACTIVITY 34Ci,3Sm-K,~Zm,4zS~,46V,SOMn~ measured TI/a. Compared with systematics. PRVCA C13 2517
A = 47K
R 76Do05:
47Ti
R 76Ha14:
47
NUCLEAR REACTIONS 4o,42,44,46Ca(d,3He),4o,44Ca(d,t),E=52 MeV~ measured 9(g). 39,~*,43,~TK,39,43Ca deduced leve!s,J,,,L,T,iz,S. Enriched targets. NUPAB A263 210 NUCLEAR REACTIONS 4sSc(~,d),E=25 ~eV; measured ~(8). ~TTi deduced levels,J,~. Shell model,DWBA analyses. PRVCA C13 1874
9
KEY
NUMBERS
AND
A = ~TTi
R 76To02: 76Wh01:
~V
D 76Mo12: R 76To02: 76Wh01:
R
~8Sc
D 76Ja07:
• 8v
D 76Ja07:
76 Mot0:
~V
soy
5O~n
NUCLEAR REACTIONS 48Ca(*eO,*4C),(*60,tsN},E=56 MeV; measured ,. SOTi,4gSc deduced levels. NUIMA 135 67 R 76WHO 1". NUCLEAR REACTIONS 4SSc,~,~9,SOTi,sgCo,64Ni,63Cu(p,nT),4TTi, 5*V(p,p'7), • STi(d,pT},SOTi{d,nT),E=3.5-5 MeV; measured 7(t). ~3,47,4gTi, 47,*9,ss,3*V,SgNi, 64Cu,6sZn levels deduced T,/z. NUPAB A260 1 8 9 D 76 Wi08: RADIOACTIVITY 34Ci,38m-K,4Zm,4zSc,~6V,SOMn: measured TI/ao Compared with systematics. PRVCA C13 2517
R 76Wh01:
R 76Fo04:
D 76Bo19:
51
NUCLEAR REACTIONS 4sSc,47, 49,soTi,sgco,64Ni,6scu(P,nT),~TTi,s*v(p,p' I), 48Ti (d,pT),SOTi(d,nT},E=3.5-5 MeV; measured 7{t). 4s,~7,49Ti,4T,49,s°,31V,sgNi, e~Cu,esZn levels deduced TI/z. NUPAB A260 189 52
NUCLEAR REACTIONS 3sAr{x,7),~=-6-15 MeV; 40Ar(a, 7),E=5.5-11.1 MeV; 48Ti (~,7), E=6-12 HeV; measured ,[E,ET,8} . 4a,44Ca, saCr deduced resonances#J,w,F,GDR. Enriched 3aAr,48~i targets. NUPAB A263 349 A =
S3Fe
50
R 76Er02 :
A = s~Cr
.49
NUCLEAR REACTIONS 4eca(*60,*4C) ,(.60,1SN) ,E=56 MeV; measured ,. SOTi,~gSc deduced levels. NUIMA 135 67 R 76Li10: NUCLEAR REACTIONS 49Ti(e,e),~<20~.3 MeV; measured ,{E). ~ I i deduced ~7 moment. YAFIA 23 ~98 NUCLEAR REACTIONS ~3Sc,~,~9,SOTi,s"Co,e~Ni,esCu(p, nT},~TTi, s*V(p,p'7}, 76Yh01: 48Ti(d,pT),SOTi(d,nT),E=3.5-5 MeV~ measured T(t). 4 3 , ~ , ~ T i , ~ 7 , ~ , s ° , s * V , s ~ N i , 6~Cu,~sZn levels deduced T~/a- NUPAB A260 18g NUCLEAR REACTIONS * s S c , ~ , ~ 9 , S S T i , s g c e , 64Ni,6eCu(p,n~), ~TTi, s*v(p,p'y}, R 76 WHO1: • eTi (d,pI),SOTi(d,n7),E=3.5-5 MeV; measured 7(t). .s, ~ 7 , ~ g T i , ~ T , ~ , s o , s , V S~Ni , 6*Cu,esZn levels deduced T./a. N~PAB A260 189
A = 3,V
48
R 76Er02:
A = SOTi
47 Continued
NUCLEAR REACTIONS ~8Ca[.80,~80'),8=50 MeV; measured ~(8) to levels in *80,~8Ca: deduced optical potentials. PYLBB 61B 213 RADIOACTIVITY ~ev,~eSc; measured ET,I~,TT-coin; deduced log ft. 48Ti deduced levels JINCA 38 1099 RADIOACTIVITY 48V,~eSc; measured ET,IT,TT-coin ; deduced log ft. ~STi deduced levels JI~CA 38 1099
A = ~9Sc
WORDS
NUCLEAR REACTIONS 3tp(,gY,2npT} ,[~gF,n2pT),E=~7 MeV; measured recoil distance. • TV,47Ti levels deduced T,/z,B(MI } ,B(E2). Natural target,Ge(Li) detector. PRVCA C13 1889 NUCLEAR REACTIONS ~ s S c , ~ , ~ , S O T i , S ~ C o , 6 4 N i , e s C u ( p , n ~ } , ~ T T i , s ~ ¥ ( p , p . 7), • 8Ti (d,pT),soTi(d,ny),E=3.5-5 ~leV; measured ~(t). 4s, 4 ~ , ~ T i , 4 ~ , ~ , s o , s 1 ¥ , 5 , N i " 64cu,eszn levels deduced T~/a. NUPAB A260 189 RADIOACTIVITY 3zP,~TV,6~,6~Ga; measured E~. N~IMA 133 ~57 NUCLEAR REACTIONS 3.p(.gF,2np7 ) ,(ZgF,n2pT},E=~7 MeV; measured recoil distance. • ~ V , ~ T i levels deduced T~/a,B(N1),B(E2 ) . Natural target,Ge(Li) detector. PRVCA C13 1889 NUCLEAR REACTIONS ~ S S c , ~ , ~ , S O T i , S g C o , 64Ni,esCu(p,nT),4~li,s*V{p,p.~), • STi(d,pT},SUTi(d,nT),E=3.5-5 MeV; measured 7 ( t ) . ~ s , ~ 7 , ~ T i , ~ 7 , ~ , s u , s * V , s ~ N i , 64Cu,6sZn levels deduced T./~. NUPAB A260 189
A =
~8Ca
KEY
53
RADIOACTIVITY S3Fe,T3r73m-Se, 84, s~m-R~,ssYWg*~o; analysis. ZPAAD A277 203
10
measured Tz/a. Activation
KEY
NUHBERS
~ND
A =
S~Mn
R 76BeI~:
ssCo
NUCLEAR REACTIONS socr(*zC,2p~¥),E=26-58 ~leV; S~Fe(a,2pT),s~Fe(~,a},E=12-24 ~eV; measured ,(E,ET,8) ,TT-coin. S~Fe(=,2pT),E=20,24 MeV; measured DSA. S6Fe deduced levels,J,w,T1/z,B(k ) . PRLTA 36 1536 76Da12: NUCLEAR REACTIONS S6Fe,aOSTl(n,n'~): measured ~(8). S6Fe, aOST1 levels deduced J,~. NUI~A 134 291 76EI09: NUCLEAR REACTIONS ss~n(p,7),E=0.6-2.5 Me¥; measured ¢(E,ET},TT(8). SSMn(p,p},E=1.638-1.718 MeV; measured ,(E}. S6Fe deduced IAS, Fo ANPYA 33 82
R 76Br19:
sTco
D 75Sm06: 76Av02: 76Bo16: R 76~a24:
eTNi
R 76Hu06:
R 76Mo17:
R 76Ma24= sgNi
D 76Be35: 76Sz02: R 76Hu06 : 76Pi05: 76Wh01:
58
NUCLEAR REACTIONS Izc,~sSi, 4OCa,SsNi(e,e,p),E=497 ~eV: measured ~,missing energy,recoil momentum. *2C,~eSi,~oca,sSNi deduced average proton kinetic, separation energies. NUPAB A262 461 A =
J 760p01 :
57
NUCLEAR REACTIONS STFe(7,7} ; measured Mossbauer effect in PdAgFe alloy series. STFe deduced hyperfine fields, isomer shifts. PYLAA 56A ~77 NUCLEAR REACTIONS sTFe(7,7): measured Mossbauer effect. STFe deduced isomer shift, quadrupole splittimg. P~RBA B13 ~78~ RADIOACTIVITY STCo,*34Cs; measured ~ count rate. MTRGA 11 67 RADIOACTIVITY sTCo,~oTBi~ measured ce-spectrum. NUIMA 133 579 RADIOACTIVITY sT,6uco,13TCs,*SaEu,lssSm,*gSAu; measured E 7. ZENAA 31a 387 NUCLEAR REACTIONS 6o,6~,64Ni(p,a),E=13-16 MeV; measured ¢(E,E=,8). ST,Sg,6tCo deduced levels,J,level densities. Enriched targets. PBVCA C13 2269 NUCLEAR REACTIONS ssNi(polarized d ,t) ,E=16. 5 MeV~ 6o,62Ni(polarized d,t),E=15 MeV: measured analyzing power Ay(8} . sT,sg, 6*Ni levels deduced J. Enriched targets. NUPAB A263 445 A =
sgCo
56
R 76Be26:
76Sa13:
SSNi
55
NUCLEAR REACTIONS S S ~ n ( p , p ' ) , ~ 5 . 2 - 6 ~eV; measured ,(E, Ep',O). SS~n levels deduced J,w. DWBA,Hauser-Eeshbach. YAFIA 22 21 76Ku05: NUCLEAR REACTIONS SS~n(~,a'7),E=5-8 ~eV; measured Coulomb excitation,7(O). SSMn levels deduced J,B(E2),B(MI),7-branching. PHSTB 13 213 R 76Ad04: NUCLEAR REACTIONS s~Fe(sHe,dT) ,E=8.1 MeV; measured E¥(8},Doppler shift, ssCo levels deduced T,~s. Enriched target. NUPAB A263 173 76 Ne04 : NUCLEAR REACTION S~Fe(~He,dT),E=12 ~eV; measured ET(8),Doppler-shift attenuation, sSCo deduced levels,J,~,T,/a. Enriched target,Ge{Li) detector. NUPAB A261 ~27
A = STFe
54
R 75An~2:
A = seFe
NORES
NUCLEAR REACTIONS s4Cr(p,n),~=2.72-4.65 ~eV: measured Doppler shift,,(E~,8~). s ~ I n deduced levels,Tt/~,6,~-branching. Enriched target. NUPAB A261 238
A =
ssMn
KEY
59
NUCLEAR MONENTS sgY,SgCo,aTAI~ measured hyperfine fields in pseudobinary compounds. NNR method. PLRHA B13 4698 NUCLEAR REACTIONS ~o,62,64Ni(p,a| ,E=13-16 MeV; measured ,(E, Ea, 8). sT,sg,6tCo deduced levels,J, level densities. Enriched targets. PRVCA C13 2269 RADIOACTIVITY sgNi; measured 7-continuum,ET(max); deduced Q. Ge(Li)-detector. IANFA 40 773 RADIOACTIVITY sgNi: measured IBS: analyzed data. ATKOA 18 51 NUCLEAR REACTIONS ssNi(polarized d,t) ,E=16.5 MeV; 6°,62Ni(polarized d,t} ,E=15 NeV: measured analyzing power Ay(8) . sT,sg,6tNi levels deduced J. Enriched targets. NUPAB A263 445 NUCLEAR REACTIONS SOCr(taC,n2pT),E=26-58 MeV: S6Fe(~,n~),E=10,15,22.5 MeV; measured o(E,ET,0 ) , 77-coin. SgNi deduced levels, J, mixing ratios. Enriched socr target. NUPAB A264 132 NUCLEAR REACTIONS ~sSc,~;,~9,SOTi,S,Co,64Ni,6sCu(p,nT),47Ti, sIV (p,p, 7), 48Ti(d,pT),SOTi(d,nT),E=3.5-5 MeY: measured 7(t}. "s,'T, 4"Ti,dT,49,so,stV,SgNi, 64Cu,6sZn levels deduced T,/a. NUPAB A260 189
11
KEY NUMBERS AND KEY WORES
A =
6OCo
D 76Bo16: 76KI0~:
eoNi
R 75Iv0~:
RADIOACTIVITY s~,6oco,~mTCs,~SaEu,~s3Sm, xgeAu; measured E~. ZENAA 31a 387 RADIOACTIVITY ~6sc,e.co; measured TT(t). ~eIi, eoNi levels deduced Tx/a. NUI~A 13~ 525 NUCLEAR REACTIONS s*v(¢zC,2np),E=32-~2 ~eV; measured ET,~7, T{t). 6oNi deduced l e v e l s , J , ~ , T , / z , T - m u l t i p o l a r i t y , B ( E 2 ) . IANFA 39 1695 A =
ezCo
R 76Ma2~:
e*Ni
R 76Hu06:
6~Cu
R 76Be30:
R 75Kri O:
=
6~Zn
e~Ga
eszn 65Ga
6~Cu resonances
6~
NUCLEAR REACTIONS 4 s S c , 4 T , ~ 9 , S O T i , S g C o , 6 4 N i , e s c u ( p , n T ) , 4 1 T i , S * V ( p , p ' ? ) , 48Ti (d,pT),SOTi(d,nT),E=3.5-5 MeV; measured ?(t). ~s, 4T,~gTi,~7,~9,so,s*V,SgNi, e4Cu,esZn levels deduced T,/a. NUPAB A260 189 R 75 HsO~ : NUCLEAR REACTIONS 6sCu(p,T ) ,~=1750-2950 keY; measured G(E,ET),TT-coin. e~zn deduced r e s o n a n c e s , l e v e l s , J , w , T - b r a n c h i n g . CJOPA 13 152 76Br12: NUCLEAR R E A C T I O N S 6aNi(a,2ny),E=22-~O ~eV; measured ,(E, EI,~),IT-coi~. e~Fe (*zC, 2pT) ,E=36-~8 ~eV; measured ¢ (E,E~) . s s ~ (.zC, 2np~), E=35 MeV; measured recoil distance. 6~Zn deduced levels,J,w,T,/a. JPSLB 37 L 63 76Chi I: NUCLEAR REACTIONS ~ N i ( ~ , n T ) , E = 6 . ~ - 8 . 0 NeV; measured ,(E, E7),DSA. 6~Zn deduced leve!s,T¢/a,B(k). PRVCA C13 2237 76Ne06: NUCLEAR REACTIONS 6~,6~,~s,~ozn(e,e') ,E=~0-112 MeV; measured ,(E, Ee',@). e~,e6,6e,~oZn deduced B(E2),B(E3). Application of anharmonic vibrator model. Enriched targets. NUPAB A263 2~9 D 76Mo12: RADIOACTIVITY ~ z P , ~ V , 6 ~ , 6 e G a ; measured ~ . NUIMA 133 ~57 65
NUCLEAR REACTIONS 64Ni(p,n),~ near threshold: measured neutron spectra; deduced basic limitations on the near threshold technique. 6sCu deduced resonance. PRVCA C13 2083 NUCLEAR REACTIONS 4 s S c , ~ T , 4 9 , S O T i , s g C o , e 4 N i , 6 s c u ( p , n T ) , ~ T T i , S ' V ( p , p ' ? ) , R 76 NhOI4STi (d,pT),SOTi(d,nT),E=3.5-5 MeV; measured 7(t). ~s,'T, 49Ti,~T,49,s°,sxv,SgNi, e4cu,eszn levels deduced T,/2. NUPAB A260 189 R 75We2~ : NUCLEAR REACTIONS 6~Zn(p,y) ,~=1.8-2.1 MeV; measured ,(E,ET) ; deduced Q. 6SGa deduced mass excess,levels. PHFEA 10 167 R 76Le09:
A = 66Z n
R
6eGa
D 76Mo12:
76Ne06:
D 71S~18:
66
NUCLEAR REACTIONS e4,66,es, ToZn(a,e') ,E=-40-112 MeV; measured ,(E, Ee',8) . e4,6e,es,7oZn deduced B(E2),B(E3}. Application of anharmonic vibrator model. Enriched targets. NUPAB A263 249 RADIOACTIVITY 3zP,4TV,64,e6Ga; measured E~. NUIMA 133 457
A
eTGa
¢(E, Ey).
R 76Wh01 :
A = 6sCu
63
NUCLEAR REACTIONS 6ZNi(p,~),Ep<5 MeV; measured deduced T-hranching,B(M1). IANFA 39 1268 A =
6~Cu
61
NUCLEAR REACTIONS 6o,~z,e*Ni(p,~),E=13-16 ~sV; measured -(E,E=,O). s~,s~,6"Co deduced levels,J,level densities. Enriche~ targets. PRVCA C13 2269 NUCLEAR REACTIONS ssNi(Folarized d,t) ,E=16.5 MeV; 6 0 6ZNi(polarized d,t) ,E=15 ~eV; measured analyzing power Ay(O). s~,s~,etNi levels deduced J. Enriched targets. N~PAB A263 8~5 NUCLEAR REACTIONS eONi(p,7),~=3690-3790 keY; measured E~,I~,absolute ~ yields. etcu deduced r e s o n a n c e s , F ~ , C o u l o m b energy differences. T. N~PAB A263 ~77
A
63Cu
60
=
67
RADIOACTIVITY eTGa; measured Ty(@) , E y , I T , ~ - c o i n , T(t). levels,J,w,Ti/a,k,6,Q. AAFBA No 364
12
eTZn deduced
KEY N ~ B E R S
AND KEY WORDS
A =
~8Zn
R 76 Ne06 :
NUCLEAR REACTIONS 6~,~6,6e,~aZn(e,e') ,E=40-112 ~eV: measured ¢(E, Ee',8) . e~,~6,68,~oZn deduced R(E2),B(ES). A p p l i c a t i o n of anharmonic vibrator model. Enriched targets. NUPAB A263 249
A
~gGe
D 76Ho09:
69Se
D 76Ha22:
R 76Ne06 :
;SGe
R 76Mo15:
7ZAs
=
D 76He06:
R 76Ha26:
=
TSAs 7~Se
74Se
74Br
72
73
R 76Yo04:
NUCLEAR REACTIONS 7 o , T z , 7 4 , 7 6 G e ( p o l a r i z e d d,p),E=12 ~eV; measured polarization parameter Ay(Ed,Ep,e),~(Ed,Ep,8 ) . 7*,73, Ts, ZZGe levels deduced L,J,w,S. E n r i c h e d target. NUPAB A263 q19 R 76Sc 13: NUCLEAR REACTIONS 7z,T~,76Ge(3He,d) ,E=23 MeV: measured ~(Ed, 8) ; deduced Q. 73,Ts,77As d e d u c e d levels,L(p),cam. Enriched targets. NUPAB A263 193 D 76Bo19: R A D I O A C T I V I T Y S S F e , 7 3 , z s m - S e , e 4 , e 4 m - R b , e e y , g * H o ; measured Ti/a. Activation analysis. ZPAAD A277 203 R 76Be15: NUCLEAR REACTIONS 7~Ge(~,3nT},E=30-55 MeV: measured ~(E,E~,8),~7-coin. rSSe deduced l e v e l s , J , w , k , y - b r a n c h i n g . E n r i c h e d G~ target. Ge (ii} detector. NUPAB A261 317
A
74As
71
RADIOACTIVITY 7ZAs,ZZAs; measured IT(e,H,t),N~R in Fe; deduced g,I. NUPAB A259 378 NUCLEAR REACTIONS ZOGe(~,npT),TaGe(=,3np7) ,E=30-55 MeV; measured ET, IT,,(E,ET,8,t) ,77-coin. 7~As deduced levels,J,T,T,/2. Enriched Ge targets. Ge(Li) detector. NUPAB A260 109 NUCLEAR REACTIONS ~zSe,ZS~,ts6,tse,t6oGd,z76, ; T e , tSOHf(¢,~,7), E=11-17 ~eV; measured Coulomb excitation. SaNi(t60,2pT),E=qq-46 ~eV; measured ET,7-delay. 7zSe levels deduced Tz/z,B(k ) . *s~,zs6,'sa,*eoGd, *Ts, 'T8, ZeoHf levels deduced B(X). IANFA 40 18
A = 73Se
70
NUCLEAR REACTIONS 7 o , z ~ , ~ , 7 6 G e ( p o l a r i z e d d,p),E=12 MeV; measured polarization parameter Ay (Ed,Ep,e) ,~(Ed,Ep,8). 7, 7 ~ , T s , 7 7 G e levels deduced L,J,r,S. Enriched target. NUPAB A263 419 D 76He06 : RADIOACTIVITY ~*As,~zAs: measured IT(e,H,t),N~R in Fe; deduced p,I. NUPAB A259 378
R 76Ma20: 7z Se
=
R 76Yo04:
A
~aAs
69
NUCLEAR REACTIONS 6 * , 6 6 , ~ e , 7 o z n ( e , e ' ) , E = q O - 1 1 2 ~ e V ; measured ~(E, Ee',e). e~,~e,ee,~.Zn deduced B(~2),B(E3). A p p l i c a t i o n of anharmonic vibrator model. Enriched targets. NUPAR A263 249 NUCLEAR REACTIONS 6eZn(=,2nT),E=2~-~O HeV; measured ,(E,ET, 8),7~-coin, 7(t) . zoGe deduced levels,J,w,T,/m,7-bra~ching. PRVCA C13 2182
A • z Ge
=
RADIOACTIVITY egGe; measured 77(e),E7,I7. 6~Ga levels deduced J,w. ZEPYA A276 341 RADIOACTIVITY ~gSe: measured p X-ray(t) ,pT(t) ,7 X-ray(t),Tx/a,E~,Q. ~ A s levels deduced TIj 2 limits. PRLTA 37 133 A
*OZn
68
=
R 76Lai O:
74
NUCLEAR R E A C T I O N S 74Ge(p,n7) ,E=3.5-5.C MeV: measured ,(E,ET),77-coin, l(ce),Tce(t),nce(t) . 74As deduced levels, J,,,ICC, T,/a,k, 7-bra,ching. PRAMC 6 209 R 76 Hal0: NUCLEAR REACTIONS 64Ni(160,2naT) ,E=42-81 SeV. measured 6(E,ET, e),DSA,particle 7-coin,7-ray multiplicities. *4me deduced l~wels, J, Tz/a. 6~Ni(*60,qnT),(160,2n~) ,(z60, qn=7) rE=q2-81 ~eV; measured ,(E,E¥}. Enriched target. NUPAR A259 496 D 76Ro08: R A D I O A C T I V I T Y 74BE [from SaNi(X60,2p} , ~ 4 6 ~eV]; measured TT(t}. 74Se level deduced Tx/2,B(E2). NUPAE A261 439
13
KEY
NUMBERS
AND
A =
7SGe
~SAs 7sSe
D 76Ba15:
D 7~Gu30 : R 76Yo0~:
As
R 76Sc13:
77S e
R 76Ze03:
TTRb
D 75Li13:
T7
TSKr
R 74Sa32=
TeRb
D 74Sa32:
s~y
SSZr
81
RADIOACTIVITY 8, Bb~ measured ET,IT,TT-coin,E~,~7-coin; deduced log ft,Q. s. Kr deduced levels,J,r. PHFEA 10 133 RADIOACTIVITY 81Rb: measured E7,17. IJARA 27 189 76Sc18: NUCLEAR REACTIONS ZgBr(a,2n7} ,E=22.5 MeV; measured ET,IT, 7(O},77-coin. R76Fr10: 8sZn (*60,2npT),E=52 MeV: measured E7,I7(8). 8SRb deduced levels, J,w. Enriched targets. PRVCA C13 2247
D 75Va2~:
8~
R 76An05:
NUCLEAR REACTIONS S4Rb(n,p} ,~=th: measured Ep, Ip; deduced Q. SSRb deduced proton branching, a4Kr deduced levels,Fp. PYLBB 6 1 B 234 D 76Bo19: RADIOACTIVITY S3Fe,73,73m-Se,e~,s4m-Rb, esY,g*Mo; measured T,/z. Activation analysis. ZPAAD A277 203 D 76Ia01: RADIOACTIVITY e4m-Y [from s4Sr(p,n} ]: measured T,/z,ET, IT: deduced log ft. ssm-Zr [from sgY(p,5n) ]~ measured ET,IT,T,I a. 8~Sr, eSZr, ssy deduced levels. PRVCA C13 2075 A =
8 SRb
78
NUCLEAR REACTIONS 68Zn(szC,2n7) ,E=32-48 MeV; measured ¢(E, ET, 8}. 64Ni(*60,2nT), E=42 fleV: measured TT-coin. 18Kr deduced levels,J,w. JPAGB A7 1156 RADIOACTIVITY 7 ORb: measured E7,IT,77-coin,7(t},77(~}. 7OKr deduced levels,J,T,Ts/z. JPAGB A7 1156
A =
8#Rb
77
RADIOACTIVITY TTGe; measured 7T(e). 77As levels deduced 6, J,w. T3,TS,TTAs systematics. RBFSA ~ ~7 NUCLEAR REACTIONS ~o,Ta,7~,~6Ge(polarized d,p),E=12 MeV; measured polarization parameter Ay (Ed,Ep,~) ,,(Ed,Ep,8). ~l,~3,Ts,7~Ge levels deduced L,J,w,S. Enriched target. NUPAB ~263 ~19 NUCLEAR REACTIONS Ta,7~,*6Ge(3He,d),E=23 N~V; measured ,(Ed, O); deduced Q. ?3,Ts,~TAs deduced levels,L(p},CaS. Enriched targets. NUPAB A263 193 NUCLEAR REACTIONS 7~Ge(a,nT),~=I~ MeY; measured ET, I~,T7-coin, T(~). 7*Se deduced Isvels,J,~,6. Enriched target. Ge(Li) detectors. ZEPYA A276 371 RADIOACTIVITY ~TRb: measured ET,IT,TT-coin,T,/a, E~; deduced log ft, Q. TTKr deduced levels,J,w. Mass-separated sources. IANFA 39 501
A =
S~Kr
76
RADIOACTIVITY TEAS: measured 7(8) from polarized nuclei; deduced multipolarities. ~eSe levels deduced J,w,6. PRVCA C13 1991
A =
e*Rb
75
NUCLEAR REACTIONS ~ o , ~ a , ~ , T ~ G e ( p o l a r i z e ~ d,p),E=12 MeV: measured polarization parameter Ay (Ed,Ep,O),~(Ed,Ep,8} . ~ , ~ 3 , T s , ~ G e levels deduced L,J,w,S. Enriched target. NUPAB A263 419 R 76Sc13: NUCLEAR REACTIONS ~a,~,T~Ge(3He,d) ,E=23 H~V~ measured ,(Ed, 8); deduced Q. • ~,~s,T~As deduced levels,L(p},CzS. Enriched targets. NUPAB A263 193 R 76Sa07: NUCLEAR REACTIONS ~mGe(a,nT} ,E=8.1,10.0, 13.0 ~eV~ measured e(ET, 8),TT-coin. • sSe deduced levels,J,w. Enriched target. NUPAB A261 93
A = ~7Ge
WORDS
R 76Yo0~:
A =
~6As
KEY
J 76Ti01:
85
NUCLEAR 80MENTS SSRb, 12TI; measured quadrupole hfs in RbI; deduced guadrupole coupling constants eqQ. ZENAA 31a 236 R 76An05: NUCLEAR REACTIONS S4Rb(n,p} ,~=th: measured Ep,Ip; deduced Q. SSRb deduced proton branching. S4Kr deduced levels,rp. PYLBB 61B 234 ~ D 76Ia01: RADIOACTIVITY e4m-Y [from e4Sr(p,n} ]: measured T,/z,ET, IT; deduced log ft. esm-Zr [ from sgy(p,5n) ]; measured ET,IT,T,12. S4Sr, OSZr, SSY deduced levels. PRVCA C13 2075
14
KEY NUMBERS
A~D KEY
A = STBr 87Kr
D 76Ra20:
87y
R 76Ho11:
R 76Je02:
eeRb 8sy
8,Rb 8~y
RADIOACTIVITY 8 8 , . ~ , ~ o , . . K r , a S , 8 . , , o , . . R ~ [ from zssU(n,F) ]; measured IT, IB; deduced ground-state 8-branching. Ge(Li) ,~w plastic scintillation detectors. PRVCA C13 2~92 D 76Wo05: RADIOACTIVITY 88,89,9o,91Kr, s8,s~,9o,~tRb [from z3su(n,F} ]; measured I~,IB; deduced ground-state B-branching. Ge(Li) , ~ plastic scintillation detectors. PRVCA C13 2~92 D 76Bo19: RADIOACTIVITY S~Fe,~3,~mm-Se,8*,s~m-Rb,8sy,g*~o; measured T,/~. Activation analysis. ZPAAD A277 203 R 76Ho11: NUCLEAR REACTIONS 86,8~,SSSr(d,n),E=12 ~eV; measured ¢(En, O). 8~,sa,sgy levels deduced S. Enriched targets. PRVCA C13 2212
9ORb 9osr 9oZr
9o~o
89
RADIOACTIVITY a8,~9,~o ,tKr, ee,ag,,o,~tRb [ from a~su(n,F) ]; measured 17, IB; deduced ground-state B-branching. Ge(Li),qw plastic scintillation detectors. PRVCA C13 2~92 D 76 9o05 : RADIOACTIVITY ss,89,9o,9'KE,88,a~,go,~*R~ [ from z3su(n,F)]; measured IT, IB; deduced ground-state B-branching. Ge(Li} ,q~ plastic scintillation detectors. PRVCA C13 2q92 J 760p01: NUCLEAR MOMENTS s~Y,S~Cc, Z*Rl; measured hyperfine fields in pseudobinary componnds. NMR method. R L R B A B13 ~698 R 76Ho~ 1: NUCLEAR REACTIONS 8~,87,88Sr(d,n} ,E=12 BeY; measured ,(En, O). 87 8s,ag¥ levels deduced S. Enriched targets. PRVCA C13 2212 D 76Wo05:
A = 9OKr
88
D 769005:
A = 89Kr
87
RADIOACTIVITY a~Br; measured delayed-neutron spectrum. NUI~A 13~ 559 NUCLEAR REACTIONS Kr,a~Kr(n,7),E=th; measured E7,17. 8~Kr deduced transitions. NUIMA 135 21 NUCLEAR REACTIONS 86,87,88Sr(d,n} ,E=12 BeY; measured .(En,8}. 87,8s,e~y levels deduced S. Enriched targets. PRVCA C13 2212 A =
esKr
WORDS
90
D 76 Yo05:
RADIOACTIVITY es,eg,gQ 9tKr ss 8~,9o,gtR~ [ from z3sU (n,F) ]; measured IT, IB; deduced ground-st ate B-branching. Ge(Li) ,4, plastic scintillation detectors. PRVCA C13 2492 D 76Wo05: RADIOACTIVITY 88,89,9o 9,Kr,Se,sg,9o,g,Rb [ from z3SU(n,F) ]; measured IT, IB; deduced ground-state B-branching. Ge(Li),4w ~lastic scintillation detectors. PRVCA C13 2~92 R 76F110: NUCLEAR REACTIONS 88Sr(t,p} ,E=20 MeV; measured ,(Ep, 8). 9osr deduced !eve!s,L,J,w. Systematics. Enri=he~ target. ~UPAB A26~ 253 R 7~u22: NUCLEAR REACTIONS 9o,9*,gzZr(a,=),(a,~'),E=3~.% MeV; measured ~(8); deduced optical potentials. 9o,9*,gzZr levels deduced B(L). BICRA 52 152 76Fu03: NUCLEAR REACTIONS , o Z r ( e , e ' ) , ~ 1 8 3 BeV; measured electron scattering. 9ore deduced monopole,multipole strengths,EO resonance. PYLBB 62B 146 76Go10: NUCLEAR REACTIONS 9o,9*,gz,94,96Zr(d,t},E=16 MeV; measured ,(Et, e}; deduced Q. 9°,9*,gz,94,96Zr deduced neutron separation energies. ZENAA 31a 393 R 76Ka08: NUCLEAR REACTIONS ,2~o(p,d) , (p,t) ,Ep=28.0 M~V; measured ,(Ed,%),¢(Et,8} absolute. 9*,9OMo deduced levels,L,J,~,S. DWBA analysis. Enriched 9z~o target. NUPAB A260 1/41 A =
91Kr
D 76 9o05:
91Rb
D 76Wo05:
9tSr
R 76Ea21:
91ZE
R 74Ku22:
91
RADIOACTIVITY 8s ,89,9o,91Kr,88 89,9o 91R h [ from z3sU (n,F) ]; measured I7, IB; deduced ground-state ~-braoching. Ge(Li),4, plastic scintillation detectors. PRVCA C13 2492 RADIOACTIVITY 88,89,9o,91Kr, eS,sg,9o,,tRb [from z3SU(n,F) ]; measured I7, IB; deduced ground-state 8-branching. Ge(Li),4w ~lastic scintillation detectors. PRVCA C13 2~92 NUCLEAR REACTIONS z38U(~-,F),E: = 0 SeV; measured fission yields for ~tSr,93Y,99Mo,lt*Ag,**3Ag,**sCd,l¢3Ce; deduced muon induced fission probability. HPACA 49 187 NUCLEAR REACTIONS 9o,gt,g~Zr(e,~),(a,a'),E=3q.~ MeV; measured ,(8); deduced optical potentials. 9o,g;,gzZr levels deduced ~(L). BICRA 52 152
15
KEY
NOMBERS
AND
A = 91ZE
9*Nb 91Mo
93Mo
9*MO
NUCLEAR REACTIONS 9o,9*,gazr(~,a),(a,~'),E=3~.~ MeV; measured ,(8); deduced optical potentials. 9o,9*,gzZr levels deduced ~(L). BICHA 52 152 76 Gol O: NUCLEAR REACTIONS 9o,9*,9~,9~,9~Zr(d,t),E=16 NeV; measured ,(Et, 8); deduced Q. • o,9*,9~,9~,96Zr deduced neutron separation energies. ZENAA 31a 393
9sTc
NUCLEAR REACTIONS z38U(~-,F},E - 0 ~eV; measured fission yields for 9sSr,93Y,99~o,*lIAg,it3Ag, t*SCd,*~3Ce~ deduced muon induced fission probability. HPACA 49 187 RADIOACTIVITY 9 ~ o , g T R u , l S I N d , 16SDy~ measured TT(t}. ''IPd,14SEu; measured D 76Be3~: 77(t},TT(8)- 93Mo,97Tc,ts*Pm,*6SHo level deduced T,/a. Z**Ag,*~TSm level deduced T,/z,J,~. IANFA ~0 85 NUCLEAR REACTIONS 93Nb(p,nT),E=3.5 HeY; measured I¥(8},DSA. 9 ~ o levels R 76DUOS: deduced T,/a. JPSLB 37 L ~03 NUCLEAR REACTIONS 93Nb(p,nT},E=3.7,~.~ MeV: measured ,(E~,e},~T-coin,DBLS. 76Ru03: 9~Mo deduced levels,J,w,6,B(X),Tl/z,T-hranching. Ge(Li}-NaI (TI) anti-Compton spectrometer. Ge(Li) detectors. PRVCA C13 2166
NUCLEAR REACTIONS 9o,9",gz,94,96Zr(d,t),E=16 ~eV; measured ,(Et, 8); deduced Q. 9o,9*,gz,94,96Zr deduced neutron separation energies. ZENAA 31a 393 NUCLEAR REACTIONS 94So(n,n'T),E=1.5-4.0 MeV~ measured ET,,(E;E7,8). 94Mo R 76Su04: deduced levels,J,u,branching ratios. Enriched, natural targets. NUPAB A26% 179
=
97RU
95
NUCLEAR REACTIONS 9s,gTMo(=,a'7),E=8.8 Mere, ('zC, lzC'T},E=33 ~'leV;', measured Conlomb excitationeTT-coin,E T,IT. 9s,gT M" levels deduced Tl/z,T-branching,B(E2) ,6. IANFA 39 1637 RADIOACTIVITY 9STc; measured IT,I(X} ; deduced I(EC},I~. IANFA 40 75 D 76 Se08:
R 75An17:
R 76GOI0:
96
NUCLEAR REACTIONS 9a,gt,ga,94,96Zr(d,t),E=16 MeV: measured 9(Et, e}; deduced Q. 9o,9*,ga,94,96Zr deduced neutron separation energies. ZENAA 31a 393 A =
97MO
94
R 76GOI0:
A =
96Zr
93
R 76Ba21:
A
9SMo
92
R 7~Ku22 :
A =
9*Zr
91 Continue~
NUCLEAR REACTIONS 8sSr(~Li,3n) , (6Li,2np) ,E=3~ MeV; measured 7~-coin,-(ET, 8,t} . 9,Nb,91Zr deduced levels,J,~,T,/a,6,B(E2) ,T-branching,effective charges. Natural target,Ge(Li),Si(Li) detectors. PRVCA C13 IgO0 76Go ~ O: NUCLEAR REACTIONS 9o,gt,ga,9~,96Zr(d,t},E=16 NeV; measured ,(Et,8}; deduced Q. 9 o , 9 * , ~ z , ~ , " ~ Z r deduced neutron separation energies. ZENAA 3~a 393 NUCLEAR REACTIONS seSr(~Li,3n),(dLi,2np) ,E=3~ ~eV; measured 7~-coia,,(ET, 8,t). R 76Br1~: 9tNb, 9*Zr deduced levels,J,~,Tl/~,6,B(E2} ,T-branching,effective charges. Natural target,Ge(Li},Si(Li} detectors. PRVCA C13 IgO0 RADTOACTIVITY S3Fe,;m,;3m-Se,S~,s~m-Rb ~ssY,9,go; measured T~/a. Activation D 76Bo19: analysis. ZPAAD A277 2 0 3 NUCLEAR REACTIONS 9z~o(p,d) , (p,t) ,Ep=28. 0 ~eV; measured ,(Ed,@},,(Et,8} R 76 Ka08absolute. 91,9o~o deduced levels,L,J,~,S. DWBA analysis. Enriched vZNo target. NUPAB A260 I~I
A =
9~y
WORES
R 76Br1~:
A = 9aZE
KEY
97
NUCLEAR REACTIONS 9S,gTMO(~,='~),E=8.8 ~eV; (*aC,*aC'7),E=33 ~eV; measured Coulomb excitation,77-coin,ET,!~. 9s,97Mo levels deduced T,/~,7-branching,B(E2} ,6. IANFA 39 1637 RADIOACTIVITY 93Mo,gTRu,*S*Nd,16sDy; measured ~7(t}. IzIPd,*4SEu; measured D 76Be34: TT(t),TT(e}. 93Mo,97Tc,*S*Pm,*dSHo level deduced T,la. ***Ag,*+TSm level deduced T,/z,J,w. IANFA ~0 85
R 75An17:
16
KEY NUMBERS AND KEY WORDS
A =
98Zr
e8Nb
~STc
RADIOACTIVITY 96Zr,~a,~em-Nb; measured ET,17, T,/z,E~,77-coin, Tce-,~7-coin; deduced Q,log ft. 9~m-Nb levels deduced J,~. 9sMo deduced levels, J,~. ZEPYA A276 393 RADIOACTIVITY 96Zr,pS,pSm-Nb ; measured ET, I7,Tt/a,E~,77-coin, Tce-,@~-coin; D 76He!0: deduced Q,log ft. 9sm-Nb levels deduced J,w. ~ M o deduced levels, J,~. ZEPYA A276 393 RADIOACTIVITY ~am-Nb [from "SMo(n,p)]; measured E~,IT,TT-coin,T,/z; deduced 76Si0~: log ft. ~S~o deduced levels,J,w,7-branching. JPHGB G2 93 NUCLEAR REACTIONS 9aMo(p,n),(p,nT),E=2.~-~.2 ~eV, 9rMo(~He, d),E=19.0-23.0 ~eV; R 76Fi0~: measured ~n(e) ,Ed(e) ,E7,¢(£) ,nT-,77-coin; deduced Q for {p,n). ~ T c deduced levels,L,J,~. Enriched targets. NUPAB A261 q13
D 76Hei0=
A =
99Mo
98
R 76Ba21:
NUCLEAR REACTIONS z3sU(p-,F),E
99
~ 0 MeV;
measured fission yields for
91Sr,93Ye99Mo,tttAg,t*3Ag, ttsCd,*~3Ce: deduced muon induced fission 99Ru
R 7~Gi12:
probability. HPACA 49 187 NUCLEAR REACTIONS 99Ru(7,7'} ; measured Mossbauer spectrum. 6,quadrupole splitting. CHPLB 29 379
A
toopd
D 75Kr15:
=
"PRu level deduced
100
RADIOACTIVITY t°°Pd; measured Te-,77(e,H,t), tOORh level deduced dependence of quadrupole coupling constant. HYIND I 295
temperature
A = 102 10ZRh
D 75Sc09:
RADIOACTIVITY ,oz,LoZm-Rh [ from Rh(p,d) , Ru(d, xn) ]; measured 7(8, T) polarized nuclei: ~educed p,HuJ. He refrigerator,Ge(Li) detectors. NUPAB A2~3 309
A =
tOSRu
D 76Gu09:
RADIOACTIVITY 347
*osRu:
measured 77(8).
A =
*OSRh to6Cd
D 75Ge06: 76LuO~: R 76Es01:
R 76Le13:
*°SRh levels deduced J,w,k, 6. ZEPYA A276
106
RADIOACTIVITY *O6Rh; measured ET,absolute I7. IANFA 39 555 RADIOACTIVITY taTSn,*O6Rh,13s,*36I; measured E~; deduced Q. NUIMA 13~ 173 NUCLEAR REACTIONS 106,1,o,**z,1,4,116Cd(~,~,T),E=8.5 MeV; to6,*to,*Iz,lt~,**6Cd(t60,160'7) ,E=44 MeV; measured Coulomb excitation. *o6,**o,**z,**4,*t6Cd levels deduced B(E2). PYLBB 61B 242
A
lorCd
105
=
107
NUCLEAR REACTIONS *osPd(a,2n),E=27 BeY; deduced g-factor,p. IANFA qO 52
measured IT(e,H,t).
*orcd level
A = 108 zospd
R 76Ha21:
tOSAg
J 76Wi03:
NUCLEAR REACTIONS 'oa,*sOPd(160,160' ) ,E=28.8-46 MeV; measured L60,7(8). toe,**opd levels ~educed Q,sign of matrix product. Enriched targets. NUPAB A264 341 NUCLEAR MOMENTS *os,*tOAg [from tor,*OSAg(polarized n,T) ]; measured ~[8, H,t); deduced p,Q. tto,,,IIn calculated Q. NUPAE A261 261
A
tOp!n
R 76Sm0~:
=
109
NUCLEAR REACTIONS '*z,st6,1'a,'z4sn(p,a} ,E=22 MeV; measured ¢(e). ,op,t*m,**s,tZtIn deduced levels,J,~,o~servEd weak-coupling multiplet,semi-microscopic D~BA analysis,semi-conductor detectors~enriched targets. NUPAB A261 385 17
KEY NUMBERS AND KEY
WORDS
A = 110 ,t o p d t,OAg **oCd
R 76Ha21:
NUCLEAR REA£TIONS "Oe,l*opd(t60,'60'),E=28.8-46 MeV; measured ,60'~(0). *os,1*oPd levels deduced Q,sign of matrix product. Enriched targets. NUPAB A26~ 341 J 76Wi03: NUCLEAR MOHENTS *os,**OAg [from *or,*OgAg(polarized n,7)]; measured ~(8, H,t); deduced p,Q. **o,***In calculated Q. NUPAE A261 261 R 76De23: NUCLEAR REACTIONS *'o,ltaCd(n,n'T) ,E=fast(reactor) ; measured ET, I~(8}. **o,tlaCd deduced leve!s,T-branching,6. IANFA ~0 157 76Es01: NUCLEAR REACTIONS 106,,|u,,,a,l,~,,16Cd(a,a,T),E=8.5 ~eV; *o6,**u,**a,**~,[~6Cd(*60,160'T} ,E=4~ ~eV; measured Coulomb excitation. lO6,11o,11z,**4,1*6Cd levels deduced B(E2). PYLBB 61B 2~2
A =
t**pd
l**Ag
***Cd ~ISn
111
D 76Be34:
RADIOACTIVITY 93Mo,erRu,tS*Nd, 16SDy; measured 7T(t). 111pd,*~SE~; measured ~ TT(t),¥T(O). 93Ho,97Tc,tsIPm, 16SHo level deduced T,/a. **tAg,*47Sm level deduced ~i/a,J,r. IANFA 40 85 D 76Ra09: RADIOACTIVITY *t*Ag; measured ~7(e,H,t). ***Cd level deduced guadrupole interaction in non-cubic metals. PLRBA B13 2835 R 76Ba21: NUCLEAR REACTIONS a3sU(p-,F),E = 0 MeV; measured fission yields for ~*Sr,"3Y,e"~o,***Ag,*t~Ag,ttsCd,t~3Ce; deduced muon induced fission probability. HPACA ~9 187 J 76Ri07: NUCLEAR MOMENTS ~ I m - C d ; measure~ ~T(B,H,t); deduced magnetic fields in NiO,CoO,~nO. PLRBA B13 2138 R 75Ab09: NUCLEAR REACTIONS tlO,**a,**~,116Cd(p,p),(~,n),E=6-8 MeV; measured ,(E). It1,1t3,,tSetl~Sn deduced analog resonances,FO, Fp. IANFA 39 1688
A = 112
ItaCd
R 76De23: 76Es01:
NUCLEAR R~ACTIONS 1,o,,x2Cd(n,n,7) ,E=fast(reactor) ; measured ET, IT (8). 1'o,*'2Cd deduced levels,7-branching,6. IANFA 40 157 NUCLEAR REACTIONS 1 0 6 , t * o , * * a , * t ~ , t 1 6 C d ( ~ , a , T ) , E = 8 . 5 NeV; Io6,1,o,, la,lt4,1,6Cd (t60,160,7) ,E=44 MeV; measured Coulomb excitation. to6,t*o,*IZ,l*4,t16Cd levels deduced B(E2}. PYLBB 61B 242 A = 113
**3Ag
R 76Ba21:
**3In
R 76Sm0~:
113Sn
R 75Ab09:
NUCLEAR REACTIONS a38U(p-,F),E = 0 MeV; measured fission yields for 9*Sr,g3Y,99Mo,t*IAg,t*3Ag,1*sCd,*~3Ce; deduced muon induced fission probability. RPACA 49 187 NUCLEAR REACTIONS l*a,*t6,*Is,*~4Sn(p,a),E=22 ~eV; measured ¢(e). ,o,,,,3,t,s,ta,!n deduced levels,J,w,observed weak-coupling multiple%,semi-microscopic DWBA analysis, semi-conductor detectors, enriched targets. NUPAB A261 385 NUCLEAR REACTIONS 11o,1,~,t,4,116Cd(p,p) ,(p,n),E=6-8 MeV; measured ,(E). *1*,*13,1*s,ttrSn deduced analog resonances,FO,Fp. IANFA 39 1688 A = 114
**'Ca
R 76Es01:
*o6,1to,,la,*14,**6Cd(a,~,7),E=8.5 H e Y ; wE=~4 MeV; measured Coulomb excitation. *o6,*'O,l*Z,**~,**6Cd levels deduced B(E2). PYLBB 61B 242 NUCLEAR REACTIONS 114Cd(e,e'},E=68-112 MeV; measured ¢(E,8}. [*4Cd levels deduced form-factors,B(k),Q,~. Anharmonic model. JPHGB G2 185 NUCLEAR REACTIONS 114,116,1tSSn(p,p,),E=6.40-6.92 HeP; measured I(ce). t*4,**6Sn levels deduced B(EO)/B(E2}. PYLBB 62B ~02 NUCLEAR REAC"fIONS
lo6,11o,112w114,l16Cd(160,l&O|'y)
V6Giov: 114Sn
R 76Ba32:
A =
t*sCd
D 76Ra16: R 76Ba2 I:
115
RADIOACTIVITY *lSm'Cd; measured E~,~-shaps; deduced Q. JPHGB G2 243 NUCLEAR REAC"fIONS a3oU(p-,F),E = 0 MeV; measured fission yields for 9*SE,93Y, mgMo,I*IAg,**3Ag, I*SCd,*43Ce; deduced muon induced fission probability. HPACA 49 187
18
KEY NUMBERS
AND KEY
WORES
A = 115 C o n t i n u e d ~Sln
R 76Sm0~:
xxSSn
R 75Ab09:
NUCLEAR REACTIONS 1*~,116,118,1a~Sn(p,a} ,E=22 ~eV; measured ~(8). *o9,113,,1$,1a1I~ deduced levels,Jer,o~serv~d weak-coupling multip! ~t, serei- micresc epic D ~BA anal ysis, serei-con ductor det ect ors, enriched targets. NUPAB A261 385 NUCLEAR REACTIONS 1 * o , * * a , 1 1 ~ , 1 1 ~ C d ( p , p ) , ( p , n ) , E = 6 - 8 MeV; measured ,(E}. ***,*Im,*Is,**;Sn deduced analog resonances,~O,rp. IANFA 39 1688 A = 116
1*~Cd
R 76Es01:
1~6In
D 7~Ch59: R 76~i06:
R 76Ba32:
NUCLEAR REACTIONS l u ~ , * * u , * * a , 1 1 ~ , * 1 ~ C d ( a , ~ T ) , E = 8 - 5 MeV; ,o~,**u,**z,11,,xx6Cd(1~0,160,7) , E = ~ MeV; measured coulomb excitation. ~ o ~ , ~ 1 ~ , 1 , a , 1 , ~ , * . ~ C d levels deduced B(E2). PYLBB 61B 2~2 R A D I O A C T I V I T Y *1~m-In; measured ET,IT,7~-coin. 11~Sn deduced levels. KPSJA 7 22 NUCLEAR REACTIONS 1*SIn(n,7),E=th; measured Ey, IT, E ( c e ) , I ( c e ) , ~ - c o i n **sIn(d,p},E=12 MeV; measured nothing; analyzed ,(e). **~In deduced leve!s,j,~,ICC,7-~ultipclarity,configurations. Ge(Li) detector, bent crystal s p e c t r o m e t e r , m a g n e t i c s p e c t r o m e t e r , n a t u r a l , e ~ r i c h e d targets. NUPAB A262 19 NUCLEAR REACTIONS * 1 ~ , * 1 6 , 1 * s S n ( p , p ' ) , E = 6 . 4 0 - 6 . 9 2 MeV; measured I (ce). *1~,**~Sn levels deduced E(EO)/B(E2). PYLBB {2B ~02 A=
**vCd
D 75Sei O:
~Sn
R 75Ab09:
RADIOACTIVITY 11~,11~m-Cd; measured E~,i~; deduced log ft. l*~In levels deduced J,~. IANFA 39 625 NUCLEAR REACTIONS **u,1*a,**~,11~Cd(p,p} ,(p,n),E=6-8 ~eV; measured ¢(E}. 111,11~,**s,l*~Sn deduced analog resonances,PO, Fp. IANFA 39 1688
A
**sSb
D 76Ba32:
117
RADIOACTIVITY 62B ~02
1*eSb;
118
=
measured
l(ce).
xleSn level deduced
B(EO)/B(E2).
PYLBB
A = 119 ~In
D 76Fo02 :
I~9Sn 1~9Xe
D 76Ab01: R 76Co16:
*~Cs
R 76Co16:
~*gBa
R 76Co16:
RADIOACTIVITY 119,12,,z~3,,zsin [ f r o m 2~s U (n,F),z38U (~,F) ]; measured ET,!7, E(ce),I(ce) ,T7-coin,@7[t) ; deduced ICC,log ft. 1,9 Ia1 ,,a3 lasSn deduced !evels,J,w,T,/a,B(X ) ,k,hindrance factors. ZEPYA A276 381 R A D I O A C T I V I T Y *19m-Sn; measured 7ce(t). x19Sn level deduced T,/a. JPHGB G2 51 NUCLEAR REACTIONS lu6,1os,**oCd(160,xnypza7 ),E=52.5-66. 0 ~eV; measured ,(E,ET},77-,particle ~-coin. 119,*aUXe,11g,*auCs, 119,1aUBa deduced transitions. *2*,la~,Iz3,1~Ba,lau,*~m,*a~Ba d e d u c e d levels,K,J,r. ZEPYA A276 ~03 NUCLEAR REACTIONS l u ~ , l u s , 1 * o c d ( 1 ~ O , x n y p z ~ 7 } , E = 5 2 . 5 - 6 6 . 0 ~eV; measured ,(E,ET) ,7¥-,particle 7-coin. 119 ,1ZOXe ,119,1zoCs , ,19, laUBa deduced transitions. I z * , * ~ a , l a ~ , * ~ B a , 1 ~ o , * z ~ , ~ a ~ B a d e d u c e d levels,K,J,w. ZEPYA A276 ~03 NUCLEAR REACTIONS ~ o 6 , ' o s , 1 ' o c d ( * 6 0 , x n y p z = 7 } , E = 5 2 . 5 - 6 6 . 0 ~eV; measured ,(E,E?) ,7~-,particle 7 - c o i n . *1",*aoXe,11",*aoCs , ,,9,,aOBa deduced transitions. *a*,1~,*a~,1~Ba,lao,*a~,*Z~Ba deduced lev~is,K,J,~. ZEPYA A276 ~03 A = 120
~aUTe
R 76Ma21:
1~uXe
R 76Co16:
*ZOOs
R 76Co16:
IZOBa
R 76Co16:
NUCLEAR REACTIONS Iz2,1z4,1a6,1ZSTe(p,t),E=-=1.9 MeV; measured ,(Et,@). Izo,*aa,*a4,xa6,1ZeTe deduced levels,J,w,L. Enriched targets. NUPAB A261 223 NUCLEAR REACTIONS 1o6,1oe,*1oCd(*60,xnypz~T},E=-52.5-66.0 MeV; measured ~ ( E , E ? ) , 7 7 - , p a r t i c l e 7-coin. 119,1aSXe,11g,*aOCs, 1*9,*aOBa deduced transitions. la1,1a~,1:'~e124Ba,laO,laz,*a4Ba deduced levels,K,J,w. ZEPYA A276 403 NUCLEAR REACTIONS * o 6 , 1 0 s , 1 1 O c d ( * 6 0 , x n y p z a T ) , E = 5 2 . 5 - 6 6 . 0 MeV; measured 9(E,ET},TT-,p~rticle y-coin. 119,*aOXe,*'g,*aOCse**9,1aOBa deduced transitions. *a*,*aa,la3,12~Ba,lao,la2,*a4Ba deduced levels,K,J,r. ZEPYA A276 403 NUCLEAR REACTIONS * 0 6 , 1 u s , * * o C d ( l e O , x n y p z a ~ } , E = 5 2 . 5 - 6 6 . 0 ~eV; measured e(E,ET),77-,particle 7-coin. **9,,aOXe,,19 , laOCs , 119, laOBa deduced transitions. * 2 1 , * a a , l a 3 , * Z 4 B a , l m o , * z a , * Z 4 B a deduced !eve!s,K,J,w. ZEPYA A276 403
19
KEY NOMBEES AND KEY WORDS
A =
*2tI n
D 76Fo02:
R
tztSb
J R
ZZtBa
121
R
RADIOACTIVITY **9,,Zt,lZ3,1ZSln [from 23s U(n,F),zzeU(5,F) ]; measured E7,1T, E(ce),I(ce) ,77-coin,~ 7(t) ; deduced ICC,log ft. ,19,,zz,za3,1asSn deduced leve!s,J,~,Tt/a,B(k) ,k,hindrance factors. ZEPYA A276 381 76Sm0~ : NUCLEAR REACTIONS tzz,zte,xxs,za~Sn(p,5),E=22 MeV; measured ¢(8). tsg,t13,11s,zzt!n deduced levels,J,r,ohserved weak-coupling multip!et,semi-microscopic DWBA analysis,semi-conductor detectors, enriched targets. NUPAB A261 385 76La09: NUCLEAR MOMENTS tzzSb; measured ~ossbauer effect; deduced ~,hyperfine field in Pdz~nSb. PRVCA C13 2589 75An16: NUCLEAR REACTIONS ,at,tz3Sb,la~,ZZSTe(laC, tzC,7),E=37 HeY; (a,~'7),E=12 ~e~; measured Coulomb excitation, DSA,7(@ | . X 2 1 , l z 3 S b ,*z3,zasTe levels deduced Tx/z,B (E2),5. IANFA 39 1631 76Co16: NUCLEAR REACTIONS ,s~,,os,zzoCd(,~O,xnypz=7),E=52.5_66.0 ~eV; measured -(E,ET),77-,particle 7-coin. 119,zzoXe,t19, taocs , z19, ,mOBs deduced transitions. tzx,lzz,tz~,IZ~Ba,tZO,laz, XZ~Ba deduced ievels,K,J,w. ZEPYA A276 ~03 A = 122
Z2ZTe
R 76Bo12: 76Ma21:
IZaBa
R 76Co16:
NUCLEAR REACTIONS lZZ,t3OTe(5,a') ,E=1C-11 M~V, tzz, t3OTe (160,t60,),E=30-54 BeY; measured ~(E(t60} ,E(Z60')) ,~(Es,Es,) . z2z,t3OTe deduced Q,B(E2}. Enriched targets. NUPAB A261 498 NUCLEAR REACTIONS tzz,*24,tas,taSTe(p,t),E=51.9 MeV; measured ,(Et,e). *2°,tza,ta4,zz6,tZeTe deduced l e v e l s , J , w , L Enriched targets. NUPAB A261 223 NUCLEAR REACTIONS *o6,*us,*zOCd(t60,xnypz57),E=-52.5-66.0 HeY; measured (E,ET),77-,particle 7-coin. t*9,tZOXe,Ztg, taOCs , 119,,aOBa deduced transitions. *zl,tz2,ta~,*Z4Ba,tZo,tzz,*Z4Ba deduced levels,K,J,~. ZEPYA A276 ~03 A = 123
tZ3in
*Z3Sb la3Te *23Be
D 76Fo02=
RADIOACTIVITY **9,zzt,ta3 ,aS!n [from 23sU(n,F),Z3aU(=,F) ]; measured ~7,17, E(ce),I(ce) ,77-coin,~T(t); deduced ICC,log ft. ztg,tzz,tz3,tzsSn deduced levels,J,w,Tz/z,B (X) ,k,hindrance factors. ZEPYA A276 381 R 75An16: NUCLEAR REACTIONS 12,,,23Sb ,*z3,tzsTe(Izc,*zC,7),E=37 BeY; (¢,5'.7),E=12 MeV; measured Coulomb excitation,DSA,T(8} . tz1,zz3Sb ,tax,tasTe levels deduced TI/z,B (E2),6. IANFA 39 1631 R 75An16: NUCLEAR REACTIONS tzt,tZ3Sb,ta3 12STe(tac, 12 C,7) ,E=37 MeV; (~,5'7),E =12 MeV; measured Coulomb excitation,DSA,7(8) . 12t,zz3Sb ,*z3, taSTe levels deduced Tm/z,B (E2),5. IANFA 39 1631 D 76Be11: RADIOACTIVITY *z3,tZS,lZT,tZgBa [ from Ce02 (p,xnyp),chemically,isotopically separated]; measured ET,IT,I (ce) ,77-coin,~7-coin,~7(t),Tce(t). ,aTBa deduced ICC,log ft,Q~, zzTCs deduced levels,J,w,k, za3,tzs, lzT, IZgCs deduced B(E2). Ge(Li),Si(Li),NaI(Tl),plastic detectors. NUPAB A260 269 R 76Co16: NUCLEAR REACTIONS toe,tea,tzocd(x60,xnypz57),E=52.5-66. 0 MeV; measured 6(E, ET),YT-,particle 7-coin. m19,tZoXe,Zt%zaocs, zzg, ZZOBa deduced transitions. tZl,taa,tz3,tZ4Ba,lZo,taz, ta4Ba deduced lev~is,K,J,,. ZEPYA A276 403 A = 12q
ta*Te
76~a21:
ta4Ba
76Co16:
NUCLEAR REACTIONS zzz,lz4,xa6, ZZeTe(p,t),E=.=1.9 MeV; measured ~{Et, O). zao,,za,lz4,tz6,tZeTe deduced levels,J,r,L. Enriched targets. NUPAB A261 223 NUCLEKR REACTIONS tu6,tos,zloCd(zeO,xnypzsT),~52.5-66.0 ~eV; measured 6{E, E7),77-,particle 7-coin. zzg,*zoXe,Zzg, tzoCs, ZZg,lZOBa deduced transitions. Iat,taa,ta3,ta~Ba,Zao,lza, tZ4Ba deduced lev~ls,K,J,r. ZEPYA A276 403 A = 125
zaSIn
76Fo02:
taSTe
75An16:
tzsI
76Ho10:
RADIOACTIVITY 119,1at,zz3,1zsIn [from 2350{n,F),R3sU(5,F) ]:, measured ET,17, E(ce},I(ce} ,77-coin,~7(t); deduced ~CC,log ft. ttgeza1,*z3,zzsSn deduced !eve!s,J,w,Tt/a,B(X) ,k,hindrance factors. ZEPYA A276 381 NUCLEAR REACTIONS Iaz,tz3Sb,ZZ3,ZZSTe(zaC, zzc'7),E=37 HeY; {a, 5'T),E=12 HeY; measured Coulomb excitation, DSA,7(g}. tZZ,lZ3Sb, ta3, taSTe levels deduced Tz/z,B (E2),6. IANFA 39 1631 RADIOACTIVITY tzsI; measured decay; deduced decay pathways. NUISA 133 293
20
KEY
NUMBERS
AND K E Y
WORDS
A = 125 Continued ~aSBa
D 76Be11:
RADIOACTIVITY ,z3,,as,,aT,lagBa [ from CeO a (p, xnyp) ,chemically,isotopically separated]; measured E~,I¥,I(ce) , ~ - c o i n , ~ - c o i n , ~ 7 ( t ) , T c e ( t ) . *arBa deduced ICC,log ft,Q~. 'aTCs deduced levels,J,w,k. *a3,'as, laT,*agCs deduced B(E2). Ge(Li) ,Si (Li) ,NaI (TI) , plastic detectors. N~PAB A260 269 A=
*a6Te
R 76~a21 :
~a~Ba
R 76F!11:
126
NUCLEAR REACTIONS ~az,'a~,l~,1~STe(p,t),E=51.9 MeV; measured ~(Et,8). ~ao,'az,'z~,'z6,*aOTe deduced levels,J,w,L. Enriched targets. NUPAB A261 223 NUCLEAR REACTIONS ,,~Cd(,60,~nT},E=83 MeV; 'zosn(*aC,4nT),E=67 MeV; 'a~Sn ('aC,4nT) ,E=60 HeY; measured ET,IT,~(@) ,~7-coin, linear polarization. 'a6,*~8,'~aBa deduced levels,K,J,~. Compared with two-quasiparticle + rotor predictions. Ge(Li) deteCtors,enriched target. NUPAB A264 291 A = 127
~a?Sn ~71 taTBa
D 76Lu04: J 76Ti01:
RADIOACTIVITY ,ZTSn,~O6Rh,*3s,,~6I; measured E~; deduced Q. NUIMA 13~ 173 NUCLEAR ~O~ENTS SSRb, lzTI; measured guadrupcle hfs in RbI; deduced quadrupole coupling constants eqQ. ZENAA 31a 236 D 76Bei I : RADIOACTIVITY ~a~,~as,la~,lagBa [from CeO a (p,xnyp),chemically,isotopically separated]; measured ET,Iy,I(ce) ,;T-coin,~T-coin,~T(t),~ce (t}. ,aTBa deduced ICC,!og ft,QS. ~ZTCs deduced levels,J,r,k. *z~,*as,*aT,~agCs deduced B(E2). Ge(Li},Si(Li),NaI(Tl) ,plastic detectors. NUPAB A260 269 A =
~asSn ~ZeTe *aeCs ~asBa
128
D 76Nu01:
R~DIOACTIVITY lasSn; measured ET,I 7,E~,~7- ,TY-,~(x-ray)-coin,T,J a; deduced log ft,Q,ICC, lassb deduced levels,J,r. PRVCA C12 2017 R 76Ma21: NUCLEAR REACTIONS 'az,*24,,a6,1aSTe(p,t),E=.CI.9 MeV; measured ,(~t,8). 'a°,'aa,'a4,1a6,'aSTe deduced !evels,J,r,l. Enriched targets. NUPAB A261 223 D 76DROP: RADIOACTIVITY ,moCs [from *mSXe(p,n)]; measured ET, IT,7~-coin, Ta/a; deduced log ft. *a"Xe deduced levels. ZPAAD A277 167 R 76F111: NUCLEAR REACTIONS ,14Cd(*60,4n~),E=83 MeV; leOSn(laC,4nT),E=67 MeV; 'a4Sn (*aC,4n7) ,E=60 MeV: measured E7,I7,~ (~} ,77-coin, linear polarization. 'a6,*ae,*3ZBa deduced levels,K,J,w. Compared with two-quasiparticle + rotor predictions. Ge(Li) detectors,enriched target. NUPKB A264 291 A = 129
Ia91 ,agKe lagBa
D 76Ma31: J 76Sc17:
RADIOACTIVITY tagI; measured ~7-coin. IJARA 27 187 NUCLEAR MOMENTS *agm-Xe: measured hyperfine interaction in Fe; deduced g. NMR technique. PRLTA 37 302 D 76Bei I: RADIOACTIVITY la3,,as,lzT,,agBa [from CeO a(p,xnyp),chemically,isOtopically separated]; measured ET,I¥,I(ce) , 7 7 - c o i n , ~ - c o i n , ~ ( t ) , T c e ( t ) . 'aTBa deduced ICC,!og ft,Q~. IaTCs deduced leve!s,J,,,k, ta3,'aS, laT,*agCs deduced B(E2). Ge(Li),Si (Li)eNaI (TI) ,plastic detectors. HUPAB A260 269 A = 130
~OTe
R 76Bo12:
NUCLEAR measured targets.
REACTIONS *az,Z3OTe(u,m,) ,E=10-11 M~V, Zaa, Z3OTe (160,160,),E=30-54 ,(E('60),E(*60,)),¢(~,E~ ,) . *2a,*3oTe deduced Q,B(E2). Enriched NOPAB A261 498
MeV;
A = 132 132Ba
J
76Hoi 3:
NUCLEAR MOMENTS *3a,133Ba; measured hfs,optical isotope shift. L3~Ba deduced I,v. PYEBH 62B 390 R 76F!I I : NUCLEAR REACTIONS 1*4Cd(160,4n~),E=83 HeY; IzoSn(,zC,4nT),E=67 MeV; *a4Sn (*aC,4n7) ,E=60 MeV; measured E~,I7,7 (8),7T-coin, linear polarization. *z6,,zs,132Ba deduced levels,K,J,r. Compared with two-quasiparticle + rotor predictions. Ge(Li) detectors,enriched target. NUPAB A264 291
21
KEY
NUMBERS
AND
KEY
WORDS
A = 133 ,33Cs 133Ba 133La 133Ce
J 76Be21:
NUCLEAR ~OMENTS '33Cs; measured fractional [ressure shifts of ground-state hyperfine frequency in various buffer gases. PLRAA A13 1052 J 76Hol 3: NUCLEAR ~O~ENTS *3z,Z33Ba; measured hfs,optical isotope shift. *33Ba d e d u c e d I,p. PYEB~ 62B 390 D 76Hei I: RADIOACTIVITY ~33La; measured ET,IT,TT-coin; deduced log ft, ICC. Z33Ba deduced levels,J,w. PRVCA C13 2501 D 76He09: RADIOACTIVITY .33Ce; measured ET,IT,I(ce); deduced log ft. *33La deduced !eve!s,J,~,ICC,X. Enriched targets,mass separation,Ge(Li),Si(Li) detectors. PRVCA C13 2063
A =
134Te 13~Cs
13~Ce
J 76Wo03: D 75Sm06: R 76Hu03:
134
NUCLEAR ~OHENTS *3+m-Te; measured g. PRL~A .~6 1072 RADIOACTIVITY sTco,t3+Cs; measured ~ count rate. STRGA 11 67 NUCLEAR REACTIONS ~azSn(*eO,~nT),E=76 MeY; measured recoil distance yrast levels deduced T,/a,feeding times. PRL~A 36 1291
DSA. [3+Ce
A = 135 t3si 135Xe 13SBa
D 76FeOa: 76LuO~: D 76FeO~: J 76Ha28:
RADIOACTIVITY '3ml,*3sm-xe; measured T,~ branching. INUCA 12 243 RADIOACTIVITY *zrSn,*OeRh, 13s,*~6I; m e a s u r e d E~; deduced Q. NUI~A 13~ 173 RADIOACTIVITY *3sI,*3sm-xe; measured 7,~ branching. INUCA 12 2~3 NUCLEAR MOMENTS z3s,*3rBa; measured hfs; d~duced Q. Level-crossing. ZPAAD A277 107
136
A= 1 3e I
D 76LuO~:
RADIOACTIVITY
*zrSn,*O6Rh,*3s,*36I;
measured E~; deduced
Q. NUIMA
13% 173
A = 137 ,37Cs Z37Ba
D 76Bo16: J 76Ma28:
137Ce
D 75Pi07:
RADIOACTIVITY sT,6oCo,13TCs,ZSZEu,Zs3Sm,*9OAu; measured E~. ZENAA 31a 387 NUCLEAR M O M E N T S 13s,*3TBa; measured hfs; deduced Q. Level-crossing. ZPAAD A277 I07 R A D I O A C T I V I T Y z3rCe; measured ICC for 10-keV transition in *37La. RRPQA 20 863
A = 139 * 39Ce
D 75Vy02:
76Be18: 76Ha11: R 76Be10: z39pr
D 75Vy02:
139N d
D 75Vy02:
RADIOACTIVITY *39Nd,z39Pr,*39Ce [from Gd(660-KeV p,X)]; measured E~,!~,ET, IT,TT,77(t) ,TI/2; deduced Q. 139ce deduced levels, Tz/z,J,w, 7-multipolarity,ICC. z39pr deduced transitions. Mass-separator, ion-exchange chemistry. IANFA 39 1671 R A D I O A C T I V I T Y *39Ce; measured L(X-ray} T(8); deduced no anisotropy. ZEPYA A277 9 RADIOACTIVITY ,39Ce; measured ICC of 165.8-keV t r a n s i t i o n in *39La. ZEPYA A276 303 NUCLEAR REACTIONS 1+oCe,14+Sm,142Nd(3He,~) ,E=-25 Me¥; *40Ce,*44Sm,l+aNd(d,t) ,E=26.21 MeY; measured ,(e). *39Cee'43Sm,Z4*Nd deduced leve!s,L,J,r,S. JOPQA 37 311 R A D I O A C T I V I T Y *39Nd,*3gPrez3"Ce [from Gd(660-MeV p,X} ]; measured E~,I~,ET,IT,T~,TT(t) ,T,,w2; deduced Q. z39Ce deduced levels, T,/a,J,w, T-multipolarity,ICC. *39Pr deduced transitions. Mass-separator, i o n - e x c h a n g e chemistry. IANFA 39 1671 R A D I O A C T I V I T Y tmgNde*39Pr,*sgCe [from Gd(660-SeV p,X| ]; measured E~,I~,ET,IT,TT,TT(t),T,/a; deduced Q. *sgCe deduced levels, T,la,J,w, 7-multipolarity,ICC. *39pr deduced transitions. Mass-separator, i o n - e x c h a n g e chemistry. IANFA 39 1671
A ,+o B a
D 76Li06:
RADIOACTIVITY
=
140
*+OBa,*+oLa,*sZEu;
22
measured
IT. JINCA
38 1409
KEY
NgMEEES
AND
KEY
WORDS
A = 1~0 Continued t¢OLa
t%OCe
RADIOACTIVITY *~OLa; measured 77(e) ,linear polarization correlation, t¢oce levels deduced J,w,6. Ge(Li) detectors. PRVCA C13 2461 RADIOACTIVITY t~OBa,*¢OLa,tSZEu; measured I7. JINCA 38 1~09 76Li06: NUCLEAR REACTIONS t~oCe(T,n} ,E=9.1 Me~; measured ¢(En,e). t*oCe deduced MI,EI R 76La08: strength functions. PRVCA C13 2257
D 76Ga12:
A =
~**Xe 1¢ICs i*tNd
RADIOACTIVITY *¢tXe,t¢'Cs; measured ET,l~,TT-coin,77(t),T,/z; deduced ICC, log ft. *¢*Cs,t*tBa deduced levels,k,6. PRYCA C13 1996 D 760t03: RADIOACTIVITY "~tXe,t~tCs; measured ET,IT, TT-coin,77(t},T,/z; deduced ICC,lo 9 ft. t~tCs,t¢IBa deduced levels,k,6. PRYCA C13 1996 R 76Be I0: NUCLEAR REACTIONS l¢oCe,t¢~Sm,t*ZNd(mHe,~),~--25 MeV; t*oCe,t¢¢Sm,t~ZNd(d,t} ,E=26.21 MeV; measure4 ¢(~). t39Ce,*¢~Sm, t ~ N d deduced leve!s,L,J,w,S. JOPQA 37 311 767h05: NUCLEAR REACTIONS t*mNd(tmC,t¢C) ,(t3C,tzC}, (13C, tZB},E=67.5 MeV; measured • (@). t~t,t¢3Nd,1~3Pm levels deduced L,J,,,S. DWBA analysis. Enriched target. PRVCA C13 1936 D 760t03:
A =
t¢3Ce
R
1¢3Nd
R 76Th05~
~*3pm
R 76Th05:
t~3sm
R 76Bei0:
t¢3Eu
R 76Wi09:
X~3Gd
D 76Wi09:
76Ba21~
1 4¢pm
NUCLEAR REACTION t¢zCe(=,2nT),E=28-~O MeV; measured ¢(E=,ET),¢(ET,8},TTcoin,aT-delay, t¢4Nd deduced levels,J,v,6-mixing, Tl/a upper limit. Enriched target. Ge(Li} detectors. NUPAB A259 399 76Ra21: NUCLEAR REACTIONS t43Nd(n,T),E=thvrmal; measured ET, I7, I(ce},T¥-coin. t*4Nd deduced levels,J,w,7-multipolarity,ICC. IANFA 40 68 R 76Ma27: NUCLEAR REACTIONS t43Nd(~He,d),E=24 MeV; measured ¢(Ed, 8}. "*¢Pm levels deduced L,~,J; compared with shell model. Enriched target. NUPAB A263 12
D 76Be3~:
J 76Ku03:
D 76Si08:
1~6
NUCLEAR ~OMENTS t46Nd,tsoSm; measured temperature dependence field in polarized Fe,Ni. PLRBA B13 3697 A =
t ¢r N d
lq5
RADIOACTIVITY 93~o,grRu,tS*Nd, t6sDy: measured T7(t). g*tPd,t4SEu; measured 77(t),TT(e). 93Mo,97Tc,*stPm,*6sHo level deduced T,/a. t*tAg,*~rSm level deduced T,/z,J,T. IANFA qO 85
A =
t¢6Nd
1~,4
R 76De11:
A =
t 4SEu
143
NUCLEAR REACTIONS z38~(p--,F),E = 0 ~eV; measured fission yields for 91Sr,93Y,99Mo,lttAget'3Ag, ttSCd, t*3Ce; deduced muon induced fission probability. HPACA 49 187 NUCLEAR REACTIONS t*zNd(t3C,*¢C) ,(*3C,*aC}, (*3C, tZB},E=67.5 MeV; measured 6{8). t4t,t¢3Nd,l*3Pm levels deduced L,J,~,S. DWBA analysis. Enriched target. PRVCA C13 1936 NUCLEAR REACTIONS t4ZNd(t3C,**C},(*3C,*ZC), ('3C, tZB},E=67.5 MeV; measured ¢(e). t¢t,t43Nd,l¢3pm levels deduced L,J,w,S. DWBA analysis. Enriched target. PRVCA C13 1936 NUCLEAR REACTIONS t*oCe,l~*Sm, t~ZNd(3He,~} ,E=25 ~eV; t*oCe,t*~Sm,*~ZNd(d,t| ,E=26.21 MeV; measured ,(8). " ~ C e , t * ~ S m , * ~ t N d deduced levels,L,J,w,S. JOPQA 37 311 NUCLEAR REACTIONS l~¢Sm(¢,~npT) ,E=75-120 MeV; measured E7,17,77-coin,7(O) ,7(t) . tcm~u deduced levels,J,r,Tt/z,7-branching. ZPAAD A277 129 RADIOACTIVITY t ~ m - G d ; measured ET,IT,TT-coin,T,/a; deduced log ft, ICC. **3Eu deduced levels,J,~,k. ZPAAD A277 129
A =
*4eNd
141
of hyperfine
1~7
~AD!OACTIVT_TY *¢TNd [from *46Nd(n,7) ]; measured ~T(t),T~(e,H,t}- *¢TPm levels deduced T,/z,6,g. Natural targets,p!astic scintillators, NaI(Tl) detectors. JPHGB G2 159 23
KEY
NUMBERS
AND
KEY
WORDS
A = 1,q.7 Continued t~zSm
R 76Ga10:
NUCLEAR REACTIONS '6T,t~9Sm(*60,t60'7),E=38-~8 MeV; ~ z , ~ g S m (a,~'7),E=6-11 MeV; measured ~(E,Ey,8} ,160'7(0} ,77-coin. ,~z,169Sm deduced levels,J,,,6,B(E2), 7-brauching. Ge(Li} detectors,magnetic spectrometer. NUPAB A262 137
A =
t~sSm
R 76Ba12:
NUCLEAR REACTIONS * ~ T , t 6 ~ S m ( n , = ) , E = O - q O 0 eV; measured = - y i e l d s . r e s o n a n c e s deduced F = , v ( e f f ) . E n r i c h e d t a r g e t s . NU~AB A261 35 A =
t~Nd
R 76PiO~:
1~9Sm
R 76Co1~: 76Ga10:
t~gEu
D 76Gai0:
t~9Gd
D 75A!1%:
t~gDy
R 76St08:
1~8 x~s,lsoSm
lq,9
NUCLEAR REACTION 1~SNd{n,7),~=th; measured Ey, IT,Ty-coin. *~gNd deduced levels,J,w,neutron binding energy. Enriched target. Bent crystal, Ge(Li) spectrometers. NUPAB A26~ I NUCLEAR REACTIONS I~9Sm(7,7) ; measured ~ossbauer effect. "~gSm deduced isomer shift. JI~CA 38 1139 NUCLEAR REACTIONS I~T,t~gSm(160,'60'7),E=38-~8 MeV; 1~z,169Sm(~,~'7},E=6-11 ~eV; measured ¢(E,Ey,8) ,160,7(e) ,77-coin. *~T,*~gsm deduced levels,J,,,6, B(E2}, 7-branching. Ge(Li) detectors,magnetic spectrometer. NUPAB ~2&2 137 RADIOACTIVITY t*gEu: measured Ey,IY,77-coin. *~gSm deduced levels, T-branching. Ge(Li} detectors. NUPAB A262 RADIOACTIVITY * ~ G d ; measured Ey, Iy,I(ce),yce-csin,7X-ray-coin; deduced ICC,log ft. 1~gEu deduced levels,J,w,k. IANFA 39 ~68 NUCLEAR REACTIONS *SZGd(~,7n),E=106 MeV; measured 77(8,t). * ~ D y deduced leve!,J,w,T,/z. PYLBB 62B ~05 A = 150
so Sm
NUCLEAR ~OMENTS 1~6Nd,tsosm; measured temperature dependence of hyperfi~e field in polarized Fe, Ni. PLRBA B13 3657 RADIOACTIVITY *susm,tZ~Hf,*gzIr; measured double internal conversioa, ICC. D 75Pr06: YAFIA 21 11~5 NUCLEAR REACTIONS 1 ~ , t ~ g S m ( n , ~ ) , E = O - ~ 0 0 eV; measured ~-yields. 1~s,lsUSm R 76Ba12: resonances deduced F~,~(eff}. Enriched targets. NUPAB A261 35
J 76Ku03 :
A= *stNd
D 76Be3~ :
tstSm
R 76Co12: 76Ge03:
IStTb
D 76Ba26:
151
RADIOACTIVITY 9~Mo,gTRu,tS*Nd,*6sDy; measured 77(t). **'Pd,'~SEu; measured 77(t),yT(e). 93Mo,97Tc,lsIPm,*6SBo level deduced T,/z. *1*Ag,*47Sm level deduced T1/z,J,w. IANFA 40 85 NUCLEAR REACTIONS tSONd(a,3n} ,E=22.5-30 MeV; measured E7,17, YT-coin. *s'Sm deduced !~vels,J,r,K. Enriched target,Ge(Li} detectors. NUPAB A259 461 NUCLEAR REACTIONS 'soNd(a,3n7),E=16.5-38.4 ~eV; seasured ¢(E, Ey, 8),77(t). • s*Sm deduced levels,K,J,w,T~/a. JPHGB G2 il RADIOACTIVITY ~S'Tb; measured ~7(8,H,t}. *S'Gd level deduced ~. ZPAAD A277 217
A = 152 tSZEu
D 76Bo16:
76Li06:
RADIOACTIVIT Y sT,6oCo,13TCs,,SZEu,,s3Sm, L98Au; measured Ey. ZENAA 31a 387 RADIOACTIVITY t4oBa,*4OLa,'S2Eu: measured I7. JINCA 38 1409 A = 153
ts3Sm *S3Tb tS3Dy
RADIOACTIVITY sY,6oco,t37Cs,'SZEu,*s3Sm, 19SAu; measured Ey. ZENAA 31a 387 ~ADIOACTIVITY IS3Tb; measured Ey,IT,I(ce); deduced ICC. IS3Gd deduced levels,7-multipolarity,6. Mass-separated souzces. IANFA 39 506 RADIOACTIVITY Is3,1ss,lsTDyrlsse's~elSYHotlSY#*sa#*Sgr16°e16*a'6zr163,'66Tm, D 75Gr44: iSSrlSget6o,t6zet63s164yb,*sget63Er,16seITUe'ZtLu, t6THf, ta6,186m-lr; measured spectra,T,/z,~; deduced Q,log ft. 16T,169,171Ta, t69Hf, ITzW; measured T,/z. ,s3,15s,,STTb,XSs,ts6,tSTDy ,tsT,Iss ,sg,180,161, z6z,,63, 166Er , lSS,lSge16u,16zr163,164Tme159e163Hoe16setYsezT'Ybe167LuelS60s deduced levels,K,J,r,k. Discussed decay,level ~ro~ezty systematics. FECAA 4 971
D 76Bo16: D 75Vy01:
24
7
KEY NOMBERS
AND KEY WORDS
A = 15q IS~Eu
D 76Ch08 : 76KuO~: 76ZoOI-
, S~Gd
R 76Ha26:
R A D I O A C T I V I T Y Is~m-Eu; measured E T , I v , l ( ¢ e ) ,TI/~; deduced ICC. Is~Eu deduced levelseJ,r,k,6. P6VCA C13 2011 R A D I O A C T I V I T Y IS~Eu; measured 77(8,Het). *S~Gd deduced attenuation coefficients in Cu. PLRBA B13 2735 R A D I O A C T I V I T Y Is~m-Eu; measured ET,IT,TT-coin,T~/a. 'S~Eu deduced levels,J,~.PRVCA C13 202~ NUCLEAR REACTIONS 72Se,15~, i66,166,16OGd ,176, 178, 1OOHf(=,a,~),E=11-17 Me~; measured Coulomb excitation. S6Ni(,60,2pT) eE=~%-~6 MeV; measured EV,~-delay. TzSe l~vels deduced TI/a,B(A} *s~,*s6,,se,*6OGd ,,76, ~78, 1OOHf levels deduced B (k). YANFA ~0 18 R A D I O A C T I V I T Y *s~yb; measured nothing ,analyzed data, r e d , , e r m i n e d E~. 1~Nd,,~6Sm,1~mGd,*SODy,lS~Er,*S~Yb deduced ~-decay reduced width. PRVCA C13 257~ .
,S~yb
D 76Sc11:
A = 155 ISmTb
D 76~610:
*ssDy
D 75Gr~:
R 76St06:
~SSHo
D 75Gr%~:
RADIOACTIVITY ISSTb; measured Ey,ITeI(ce); deduced ICC, l~g ft. '55Gd deduced l e v e l s , K , J e r , k , N i l s s o n assignments,B(k),g,6. PRVCA C13 2~66 R A D I O A C T I V I T Y ~s3,1ss,lSVDy#~SS,lS6,,SVHo,,Sv,,s~, ,69 16o, 16,,~6ae163,166Tm , Ism,169,16o,16a,lo3,164Yb,'sg,'63Er,'6s,1~CelZ*LUe'67Hfele6,,s6m-Ir; measured spectra,T,/~,~: deduced Q,log ft. 167,*6~,'7*Ta,'6~Hf,,7~W; measured T,/ais~, ,ms,, SVTb , ,ms ,,66, ~SVDy , ,67, ,me, ~s~,, me, ,6~, 1 6 a ,6 ~, ,66Er , *ms e 159 ,I 60, I ~ ,163,16~Tm, 1596163Ho ,165,1 7c, 171Yb, '67Lu, 18606 deduced levels,K,J,~,k. Discussed decay,level ~ro~en%~ systematics. FECAA % 97] N U C L E A ~ REACTIONS IS6Dy(d,t),E=15 HeY; *s6Dy(3He,~),E=2~ SeV; measured e(8). ,SSDy deduced levels,L,J,~,K. CJPHA 5~ I~58 R A D I O A C T I V I T Y *s3,165,167DyelSSelS6~ImVHOe~SVr,Smelmg, 16Oel~,e162,16~,166Tm, 'sse159,160,162,163,16"~Y}DelSg,163Er,165,ITO, 171Lu,~67Hfela6,166m-Ir~ measured spectra,T,/a,8~ deduced Q,log ft. 167,'69,'TITa,'69Hf, eTaW: measured T,/~. ,s~,,ss,,S~Tb,,Ssels6 , S Z D y , , s 7 ,sa,,sg, l ~ o , , 6 , , , 6 a , , ~ , , 6 6 E r " "58,169616°e162w163,16~'Tmelsge163Ho,'65,lVOe17'Ybe'67LU, 1860s deduced levels,~,J,~,k. Discussed decay,level ~rope~ty systematics. FECAA ~ 971 A = 156
,s6Gd
ISeHo
156Er
R 76Ha26:
NUCLFAR REACTIONS 7~Se,~64,156,168,,6OGd,176, iTa, 18OHf(a,~,7),E=11-17 MaY; measured Coulomb excitation. SmNi(160,2pT),E=44-~6 MeV; measured ET,T-delay. ~mSe levels deduced T,/a,E(k ) . 1 ~ , ' s 6 , 1 6 ~ , , 6 o G d e , 7 6 , 1 7 8 , , 8 o H f levels deduced B(k). IANFA ~0 18 P ADIOACTIVITY ~63,165, ISVDy, ,ms ,~ 56,1 STile, 1m7, ,sa# I69, 1 60, ~6~ ,~6z, 163, ~66 Tin, D 75Gr~: ~sm,ls~ ,' 6°, 16z , 1 6 3 , 1 ~ Y b , ~s~ ,'63Er,* 65,' 7c, IT'Lu, ~6THf,* 66, ' e6m-Ir ; measured spectra,T,/~,~; deduced Q,!og ft. *67,*6~,,7,Ta,,6~Hf,,vzw; measured T,/a. I s ~ , , s s , , S T T b , , S s , , s 6 , 1 S T D y , , 6 7 , 1 6 8 , , 6 9 , , 6 o , , 6 , , , 6 a 16~,,66Er , 'ss,159,16°e162,163,16~'Tm~lSg,163HOeI65,17(]e171ybe'67LU, 1%60S deduced levels,K,J,~,k. Discusse~ decay,level ~ro~e~ty systematics. FECAA ~ 971 D 75A126: R A D T O A C T I V I T Y *s6Er [from Ta(660-~eV p,X) ]; measured T,/a,E~,IT, I (ce),77(t); deduce~ log ft. ,S6Ho deduced !e vels ,J ,r, ~i /a, y-multipolarity, 6. M a s s - s e p a r a t e , mien-exchange chemistry. IANFA 39 1661 R 76Su0 5: NUCLEAR REACTIONS '~2Nd(*sO,~n) ,E=90-95 ~eV; measured e(E,E?,8) eyT-coin. ,s6Er deduced levels,K,J,~,backbending. PYLBB 62B 283 A = 157
*SVDy
75Gr~4:
ISVHo
75Gr~:
RADIOACTIVITY 153,ISS,lSTDyelSSelS6,15THoelSVelSSeLSg#I6OeI61aI6aeI63,L66Tm , Ise,lsm,16°e16~,163,16~Yb, lS g e 1 6 m E r , 1 6 s e 1 7 C e 1 7 ' L u , 1 6 7 H f e l e 6 e i 8 6 m - I r ; measured 7 spectra,T1/z,~; deduced Q,log ft. 167,*69,*Z'Ta,*69Hf, S72W; measured Tx/a, s 3 , 1 6 S e * S V T b , t S s , * s 6 , 1 5 z D y 167,158,169 ,,6o,161,16a,163e 166Er " ls6,159,16°,'62rI63,'64Tm,*59,'63Ho,*65,1TIS,'7'YbwI67LU,*860S deduced levels,K,J,v,k. Discussed decay,level ~rope~ty systematics. FECA~ ~ 971 RADIOACTIVITY 's3,'ss,'SZDy,'ss,*s6,1SZHo~,sv, lsm, .59#160,,6,,,6ae,63,166Tm " ' s e , ' s g , 1 6 ° , 1 6 2 , t 6 3 , 1 6 ~ Y b , l s g , ' 6 3 E r e ' 6 s , * T m , 171Lu,'6~Hf, le6,'S6m-lr; measured T spectra,T,/a,~: deduced Q,log ft. ,6r,169,17,Tae169Hf,17zW: measured Ti/2, s 3 , 1 s s , l S V T b , , S s , , s 6 , 1 S V D y , 167,,s.,,69,,eo,.61,162,.63, 166Er , lsse159#16°,162,163w164~Tme1596163Hoe16SelVGw'T'Ybe167Lu,*860s deduced levels,K,J,w,k. Discussed decay,level rro~e~ty systematics. FEC~A ~ 971
25
KEY NUMBERS
AND KEY WORDS
A = 157 C o n t i n u e d ,STTm
D 75Gr~:
RADIOACTIVITY 1 5 3 , 1 5 s
, 5 r C y , , 5 s , l s 6 , 1 57H0 , 157 r 1 5 s , 159,1 60, , 6 1 , 1 6 2 , 1 6 3 # 1 6 6 T m ,
158,159,16°,162,163,164Y]:),lsg,163Er,165,17°,'TlLu, 16~Hfe186, i86m-IE; measured spectra,T,/a,~; deduced Q,log ft. '67,,69,~71Ta,,69Hf,,zaW; measured T,/a. 's3,'ss,'STTb,'Ss,'s6,157Dy, lST,*ss,,s~,,~u,161,162,,63, 166Er , 158,1sg~16°e16a,'63,164Tm, lsg#163HOe165, tT°,'TtYbe167Lu, 1 8 6 0 S deduced levels,K,J,r,k. Discussed decay,level property systematics. FECAA ~ 971 A = 158
*s8Gd
R 76Ha26:
~SeHo
D
lseTm
D 75Gr~:
is8yb
D 75Gr%~:
75A!13:
NUCLEAR REACTIONS 7aSe,ZS6,1s6,zs8,16OGd,*76,*rs, 18uHf (a, a, 7) , E=11-17 ~eV; measured Coul~mb excitation, s 8 N i ( , 6 0 , ~ p T ) , E = ~ - ~ 6 MeP; measured E~,7-delay. 7ZSe levels deduced Tz/~,B(k } . ,s,,~s6,,ss,,eOGd ,,76,,Ta,,soHf levels deduced B{k). IANFA ~0 18 RADIOACTIVITY ,58,,sSm-Ho~ measured ET,IT, T¥-coin; deduced log ft. 'ssDy deduced levels,J,r,5. IANEA 39 q58 R AD~_OACTIVITY 153,155 ,tSTDyeZSS,,S6e,S~Hoe,STelSSelSg,z6o, 16, e,62,163#,66Tm, 15erlSge'6°e16ae~63#164Ybe159,163Ere165,17Oe171Lu, 167Hf, '8~,186m-Ir~ measured 7 spectra,Tt/a,~; deduced Q,log ft. 167 ,169 ,171Ta, z69HfelTaW; measured T1/ais3, ,ms,, STTbe,SS ,156, isTDy , ,sT, iss,, sg, 1 sO, 161, ,62, 163, ,66Er , 'ss, Is9 ,' 6°, 16z ,163,1647m, '59,163H0 ,'6 sel 78,171Yb, 16~Lu, 1a60s deduced levels,K,J,~,k. Discussed decay,level property systematics. FECAA ~ 971 RADIOACTIVITY Is3,~ss,,sTDy, lSS,lS6,ZSTHo, lS~,,s8, lSge160,161,16ae163,166Tm, ZSSelSge16Oe162,163,16"Yb,'SgeZ63Er,Z65,l;a, 171Lue167HfetS6,186m-Ir; measured T spectra,Tt/z,8: deduced Q,log ft. 167,169,'71Ta,169Hf,172W~ measured T./~. I s~, ,ss,t STTb , , ss, 1s6,, STDy , 157, ~58,159, 1 so, is,, 162, 163~ 166Er , 158,159,'6°,162,163,16"~TmelSg,I63Hoe165,17°e'7'YbeI67LU, 1 8 6 0 s deduced levels,K,J,~,X. Discussed ~ecay,level ~ro~e~ty sys%ematics. FECAA ~ 971 A = 159
~SgTb
R 7~ Wi22 : 76Su02:
ISgEr
D 75Gr~:
*SgTm
D 75Gr~:
~SmYb
D 75Gr~:
NUCLEAR REACTIONS *6OGd(p,2n7),E--8 ~eV; measured E7, I 7. ;SgTb deduced levels,J,w,K,band mixing. JPAGB A7 L125 NUCLEAR REACTIONS ISgTb,*6SHo,L69Tm,*TSLu, le*Ta(e,e'p},E=15.0-23.O MeV; measured ,(E,Ep,8) . l S g T b , 1 6 S H o , 1 6 9 T m e l T S L u , l a l T a deduced isobaric analog r e s o n a n c e s , d i s p l a c e m e n t energies,FT. Enriched target *TSLu. Natural target *SgTh,*6SHo,169Tm,lS'Ta. NUPAB A260 172 RADIOACTIVITY ' s 3 , l s s e l s T D y , , s s e l s 6 #lSTHo, ,S'le lSS e lSg ,16oe,6, ,,6a,,63 ,166Tm , 'ss,1sg,16Oe162,163,'64yb,'Sg,'63Er,'65,'Tc,'7'Lu,'67Hf,'a6,186m-Ir; measured T spectra,T,/z,~; deduced Q,log ft. '67,'69,'7'~a,169Hf, tzaW; measured T,/a. , s 3 , , s s e , S T T b e , S S , , s 6 , 1 s T D y ,'sT,,se,'sg,160,161,,6a, 163, L66Er , I Sac Is9,1 60, 162,163,16*Tm, 's9,163H0,16s,I 70, '71Yb, '67Lu, la60s deduced levels,K,J,~,k. Discussed decay,level ~ro~s/ty systematics. FECAA ~ 971 RADIOACTIVITY *s3,'ss,ZSTDye'ss,'s6,'SZHo,'ST,'s8, 1 5 9 , 1 6 o , 1 6 1 , 1 6 : ' , 1 6 3 , 1 6 6 7 m , lss,'sg,160,162,163,'6~yb,lsg,163Ere165, lTc,'71Lu,167Hf, la6,,s6m-Ir; measured T spectra,T,/2,~; deduced Q,log ft. 167,'69,;7'Ta,'69Hf,'TaW; measured T,/a. ,s3,,ss,, STTb,,Ss ,,s6, ,sTDy , ,sT, ,so,,sg,, so, ,6,, ,62, ,63, ,66Er , lSSelSge16Oe16ae163,16B'TmelSge'63HOe16SelTO, 171[b, 167LUe1860s deduced levels,K,J,w,k. Discussed decay,level ~ro~erty systematics. FECAA 4 971 RADIOACTIVITY '53,155, lSTDy, '55, is6, ' 57H0,, 57,15 8,159, t 60, A 61,16a, 163,166Tm, lSSe'sge16Oe'62,163,164ybelSg,163Ere165,lTCe17'Lue167Hfe'66,186m-Ir; measured 7 spectra,T,/a,8 ; deduced Q,log ft. '67,169,17'Ta,*69Hf,'72W; measured T,I z. , s3,,ss,, STTb,lss,,s6,,szDy, ,sz, ,sa,,sg,, ~o,,6,,,6z, 163, ,66Er , Isselsg,16Q e 162,163 e164Tm, 159 e163HO el 65,1 7°, 171~b, '6~LUe 1860s deduced levels,K,J,~,k. Discussed decay,level pro~er~y systematics. FECA~ ~ 971 A
,6oGd
R 76Ha26:
*6OTb
D 76Da09:
=
160
NUCLEAR REACTIONS zaSe,lS4,*s6,zss,z6OGd,176, z78, .8oHf(~e~,7),E=11-17 MaY; measured Coul~mb excitation. SsNi('60,~pT),E=44-46 MeV; measured ET,~-delay. 72Se levels deduced T,/a,B(k } . Is4,1s6,,ss, 16OGd , 176, ,za,,8oHf levels deduced B(X}. IANFA 40 18 R A D I O A C T I V I T Y 160Tb; measured E7,I7; deduced log ft. *6ODy levels deduced K,transitions,band mixiug, B(~2). JPHGB G2 233
26
KEY NOMBERS
AND KEY WORDS
A = 160 C o n t i n u e d ~6OTm
75Gr~:
RADIOACTIVITY
1 5 3 e t S S , l S T D y # l S S e l s 6 , t S T H O e l S T r lS8,159~16°#161#t6:~e~'63,166Tm,
l S S e 1 s 9 el 6o ~ 1 6 2 , 1 6 3 e 1 6 6 ¥ b e Ks9 # 1 6 3 E r e l 6 s # l 7G, 171LUe 1 6 7 H f , 1 8 6 , 1 8 6 m - I r ; m e a s u r e d
t6Oyb
75Gr~:
spectra,T1/2,~; deduced Q,log ft. 167,169,t71Ta e 169Hf # 172W; ~easured T1/20 ts3,1ss,tSTTb,lSs # i s 6 iSTDy ,*s?,tss,tsD,160,161,16z,163, 166Er , lS8elS9 ,I 60e 162e163e164Tme is9 e163NO e16se I ?Oe 171¥be 167LUe 1860S deduced levels,K,J,w,k. Discussed decay,level property systematics. FECAA ~ 971 R A D I O A C T I V I T Y Is3 ,ts5 #IS?Dy, tss~Is6 # I STHo, I sT, tSSe 1s9~ 16°, 16~, 16a, 163,166Tm, ISSetSDet60,t~ze163#16~YbelSmet63Eret65#170,171LUe16?Hf,~e6,186m-lr ; measured spectra,T,/z,~; deduced Q,log ft. 167,169,171Ta,*69Hf,*TzW; measured T,/a. I S3, tSS I STTbelSS , 1S6, IsTDy , ,s?, I s . 1s9, I c o , 161,162, 16 3, 166Er , t S8# 1S9 e l 6 0 , tS z ~ 1 6 3 # 1 6 ~ T m , 1s9 e163Ho , 1 6 5 , 1 ?c# l ? ~ Y b # 167Lue 1 8 6 0 s deduced levelseK,J,~,k. Discussed decay,level [ro~erty systematics. FECAA ~ 971
A
161Dy
75Ka22:
161Ho
76Sc19:
leITm
75Ad08: 75GrOg:
=
7
161
NUCLEAR REACTIONS 161Dy(n,n'T),E<200 eV; 'e~Dy(n,n'7),E<~50 e V ; measured ,(E,~7). 161,[63Dy resonances deduced J,Fn, s~rength functions. YAFIA 22 3 NUCLEAR REACTIONS t6tDy,l?tYb(p,n),E=8.5 MeV; 163Dye173yb(p,n),E=8 HeY; measured 7T-de!ay. 161,1~3Ho,171,173Lu levels deduced TI/a,B(k). Enriched targets. Plastic scintillator,Ge(Li) detector. NUPAB A265 58 RADIOACTIVITY 161Tm[from Ta(660-HeV peX)]; measured E¥,I7,I (ce),77,77(t},E~; deduced log ft,Q. 161Er deduced levels,J, Kew. IANFA 39 1679 RADIOACTIVITY lS3,1ss ,IS?Dy, Iss, 156,1 57Hc, ISTe 158, 159, I 6o, 161# 162# 163,166Tm , ls8#tsDe16Oet6Z#163et64"YhetSDet63Ere165e17°~171LUe167H~ela6,186m-I~. ; measured 7 spectra,T,/a,8; deduced Q,log ft. 1 6 7 # 1 6 9 e 1 7 1 T a , g69Hf# 172W; measured TI/2. ts3,*ss#t STTbelSs ,Is6, Is?Dy, Is7 e Iss ,Is9#I so, 161,16 ~, 16 3, 166Er , lss~tsge16oeI62#163#I64Tmelsge163Ho#16s~t?G,171ybet6?Lu, te60s deduced levelseK,J,~,i. Discussed decay,level ;ropert~ systematics. FECAA ~ 971 A = 162
t6ZDy
R 76Ba33:
1 62Er
R 76Zo02:
~62Tm
D 75Gr~8:
162yb
D 75Gr~:
NUCLEAR REACTIONS 16zDy (n#n'T) ,E=fast(reactcr) ; measured ETeI¥. 16ZDy deduced 7-branching. IANFA ~0 78 NUCLEAR RPACTIONS 161Dy(~,3n7),E=~O HeY; measured I(ce),E7, IT. 16ZEr levels deduced K,ICC. ZPAAD A277 113 RADIOACTIVITY Is3,tss,lS?Dy,lSs,ls6,1STHo, lsT, Is8, l S D e 1 6 0 # 1 6 1 e 1 6 2 # 1 6 3 e t 6 6 T ~ # t S S e l S D , 1 6 0 , 1 6 Z e 1 6 3 , 1 6 ~ Y b , t s D , 1 6 3 E r e t 6 S e 1 7 G , 1 7 1 L u # 1 6 7 H f , le6#ls6m-Ir; measured 7 spectraeT1/2,~; deduced Q,log ft. 167,169,1?ITa, 169Hf, 17zW; measured T1/zt s 3 , 1 S S e , S T T b , l S s , l s 6 , t s T D y ,~sT,Isd,lsD,leo,16,,16a,163, 166Er, ts8, ts9 ,t 60,16 z ,I 63,16~Tm, Is# ,163H0,165, 1 7c, 1~IYb, 167Lu, 1860s deduced levels,K,J,~,k. Discussed decay,level pro~erty systematics. FECAA ~ 971 R A D I O A C T I V I T Y Is 3 ,ts5, ISTDy# 1ms, t s6,1S?Ho, t sT, Is8, tSD# 160,161,16a, 163e' ~6Tm, tssetsDe16°,t62e163#164"yb#1S~,163Ere16S,17Q#171Lu#t67Hfr186#186m-Ir ; measured 7 spec%ra,T[/z,~; deduced Qelog ft, 1 6 7 # 1 6 9 # 1 1 [ ~ a # l e D } { f e I T Z W ~ measured T,/z. is~,,ss I S ? T b , l s s , , s 6 , 1 s T D y , , s T , I s 6 ~59,16o,161,16z,16~, 166Er " ~s8,1sDet6oelezeleme16~Tmels~163Ho,16sezTo,~?~Ybe~TLu#1860s deduced levelseK,J,w,k. Discussed decay,level ~ro~e=Ly sysLematics. FECAA ~ 971 A = 163
~63Dy ~3Ho l~3Er
163Tm
75Ka22 :
NUCLEAR REACTIONS i6*Dy (n,n'7) ,E<200 eV; *63Dy (n,n'7) ,E<~50 eV; measured ~(E, E7) . ,6*,163Dy resonances deduced J,rn, strength functions. [AFIA 22 3 76sc19: NUCIEAR REACTIONS 16*Dy,*7*Yb(p,n} ,E=8.5 MEV; Z63Dy,*T3Yb(p,n),E=8 MeY; measured 77-de!ay. t6t,*63Ro,*Tt,173Lu levels deduced T,/z,B(k ). Enriched targets. Plastic scintillator,Ge(Li) detector. NUPAB A265 58 7 5 G r ~ : RADIOACTIVITY ts 3 flSSw ISTDy, lS5 ,Is6 elm?HOe lS7, IS8,159,1 60,161,162,163,166Tm , l S S e l S D , 1 6 ° r 1 6 a e 1 6 3 e 1 6 4 y b e l S D e 1 6 3 E r , 1 6 5 , L ? o e 1 7 1 L u e 1 6 7 H f , 1 8 6 , 1 a 6 m - I r ; measured 7 spectraeT,/2,~; deduced Q,log ft. ~ 6 7 , . 6 9 , 1 1 * T a , [69Hf, ,72W; measured T1/z,S3s,SS,1 STTb , ss ,Is6,,STDy , ,s7, Ise,lsD,1 60, 161#16 ae 163 ' 166Er ' tSSelS° el 60 e 162 #163e 164Tree Is9 eI63Ho 116 s,[ 7°e 171ybI 167Luw 1860s deduced levels,K,J,,,k. Discussed decay,level property systematics. FECAA ~ 971 R A D I O A C T I V I T Y lS3 #Iss # ISTDy# Iss#Is6 # I STHo, I ST, ts8, IsDe 160, 161, I 62s 163,166Tm, 75Gr4~: 15selsDw16oet62#t63#164yb#lSDe163Ere16SelTOe171Luet67Hfete6#186m-Ir; measured spectra,T1/a,~: deduced Q,log ft. 1 6 7 e 1 6 9 # 1 7 1 T a e 1 6 9 H f t 1 7 2 W ; measured T1/2. I s 3 , 1 s s , l S T T b , l s s , l s 6 157Dy , IsT,isa,lsDeK 60# 161, t 6 Z # 163 e 166Er" 158,159,16°~16:'e163et64"TmetSDe163Hoe165e17(]el?lYbe167LuelS60S deduced !evels,KeJer,k.
Discussed
decay,level
27
~ro~e~ty
systematics.
FECAA 4 971
KEY NUMBERS AND KEY WORDS
A = 163 Continued
1~yb
D 75Gr~,:
RADIOACTIVITY lS3#lSSelS~DyelSS,lS6,lSTHoelST, lSse159e16Oe161,16ae163,166Tme 158,159,16Oe162e163,16~'y]3, lsge163Ere16S#lTOw171Lue167Hf#186,186m-Ir; measured spectra,T1/a,~; deduced Q,log ft. 16~,169,1~lTa, 16eHf,*TaW; measured T1/a. ,s3,1ss,lSTTb,lSs,ls6,1STDy ,,s~,lse,lsg,leo, 161, 16a, 163, le6Er, 15 se lS9 el 6°e 16a el 63,16~Tme 159 e163Ho e16Se I 7oe 171yb, 167LU, 1860S deduced levels,K,J,w,k. Discussed decay,level ~ro~erty systesatics. FECAA ~ 971 A = 16~
16~Dy
R 76Ba3~:
t6~Er
R 76Dai01
I e~y b
D 75Gr~Q:
NUCLEAR REACTIONS 16~Dy(n,n'T) ,E=fast(reactcr) ; measured E~,IT. 164Dy deduced levels,y-branching. IANFA ~0 794 NUCLEAR REACTIONS l ~ D y ( ~ , 2 n T ) , E = 2 7 . 5 MeV; zs~Dy(~,~nT),E=~5 MeV; ls~Sm(14C,qn~) ,E=62 HeY; measured ET,IT, yT(t),7(8 ),TT-coin. 16~,166Er deduced levels,J,~,backbending. JPHGB G2 199 PADIOACTIVITY Is3,1ss, 157Dy, ISSelS6, I STHo, lS7, lS8, lS9, 16o, 161,16a, 163,166 Tin, 158elSge16°e16~e163,16~'Yb, lSe#163Er,16SelT°elTILu, 167Hf,186, l S 6 m - I r ; measured spectra,T1/a,~; deduced Q,log ft. 167,16e,t~ITa, l ~ H f , 1 7 a W ; measured T~/a. IS3elSS,lSTTb,lSs , lS6, lSTDy, lS7, ISS,lSg, 1 so, 161,16 ~, 163, 166Er, is 8e 159 ~ 16° ~ le a,163,16~Tme 159 e 163HO e165e I 7~, 171Ybe 167LUe le~Os deduced levels,K,J,~,X. Discussed decay,level ~ro~erty systematics. FECAA ~ 971 A = 165
t6sDy
D 76Be3~:
165H0
J 76Ab02: 76Po05: R 76Su02:
16STm
R 76Sv011
*~SLu
D 75Gr44:
RADIOACTIVITY "3Mo,97Ru,*S*Nd,*6SDy; measured ~T(t). 111pd,14SEu; measured 77(t),7T(@). 93~o,97Tc, lSIpm, z6SHo is, el deduced T,/a. 111Age*47Sm level deduced Tlla,J,~- IANFA 40 85 NUCLEAR MOMENTS "6Silo; measured p s e u d o m a g n e t i c moment ~. PHYSA 81B 2%5 NUCLEAR MOMENTS 16Silo; measured muonic X-rays,Q,hexadecapole moment, nuclear charge distribution. NUPAB A262 NUCLEAR REACTIONS ISgTbe16SHo,*69Tm,* ;sLu, IalTa{e,e'p),E=15.0-23.0 HeY; measure~ o(E,Ep,@). ISgTb,16SHo,169Tm,*TSLu, lalTa deduced isobaric analog r e s o n a n c e s , d i s p l a c e m e n t energies,FT. Enriched target 17SLu. Natural target ISgTb, 16SHoe169Tm,lelTa. NUPAB A260 172 NUCLEAR REACTIONS 166Er(p,nT),(p,2nT),E=8-12 MeP; measured o(E,E~), Ty-coin,I (ce),yT(t) • 167Tm deduced levels,J,w, ICC,Q,g, T1/a,k. 16STm level deduced T./a,k. PHSTB 13 193 RADIOACTIVITY lS3,1ss,lSTDy,lSS,lS6,1STHo,lST, lSS, lSg, 16o,161,16a,163,166Tm, 1SSelSg,16o,1621163,164yb,lSge163Er,16Se17Ce17ILu, 167Hf, le6, le6m-Ir; measured 7 spectra,T1/a,~; deduced Q,log ft. 167,169,171Ta,169Hf,1~2W; measured TI/~. i s 3 , , s s iSTTb,lSS,lS6,1STDy , l s T , l s s , l s g , * e o 161, 16~, 163, 166Er , 1See lS9 , 16o, 16 2,163,164Tree 159,163Ho ,165~I Tee 171The 167Lu, 1860s deduced levels,K,J,r,k. Discussed decay,level iron,fLy systematics. FECAA ~ 971 A = 166
L66Ho 166Er
D 76Ha26: R 76Dai01
16eTm
D 75Gr~4:
RADIOACTIVITY .66Ho; measured 7T{8). 166Er transitions deduced 6, IANFA ~0 18 NUCLEAR REACTIONS *64Dy (¢,2n7) ,E=27.5 MeV; *64Dy(¢,dnT),E=~5 MeV; ls~Sm (14C,~nT) ,E=62 MeV; measured ET,IT,7~(t),7(8) ,TT-coin. 16~,.66Er deduced !eve!s,J,¢ebackbending. JPHGB G2 199 RADIOACTIYITY Is 3,1ms, ImTDy, Iss,~ m6 ,I sTHo, IsT, Is8, Ise, 16o, 161,16z, 163,166 Tin, lSSe159,t6oet6ze163,16".Y~elsg#163Ere16selTCe171Lue167Hf, l e 6 , 1 8 6 m - I r ; measured 7 spectra,T1/2,~; deduced Q,log ft. 167 #169 , 1 7 1 T ~ e 1 6 9 H f , ITaW; m e a s u r e d l S 3 e l S S 1 STTbe15s e156, ImTDy e 1ST, 1 5 8 , 1 5 9 , i ~50, ][61, 16z r 163 e 166Er ,
T,/2.
1SSelSgw160,162e163e164Tmelsge163HOwleSel;GelTIYb, 167LUelS60S deduced levels,K,J,w,k.
Discussed
decay,level
property systematics.
FECAA 4 971
A = 167 lSTTm
R 76Li071
NUCLEAR REACTIONS '6ZEr(p,n),E=-10 MeV; measured Xce(t). 16TTm level deduced NUIMA 133 99 NUCLEAR REACTIONS '66Er(p,n7),(p,2nT} ,E=8-12 MeV; measured ,(E, ET}, 7T-coin,I (ce),T7(t) . *67Tm deduced levels,J,r,ICC,Q,g, Tl/a,k. 16sTm level deduced T1/a,k. PHSTB 13 193
T,/a.
76Sv011
28
~EY NUMBERS
AND K~Y ~ORDS
= 157 Con L:inued ~THf
D 75Gr~"
RADIOACTIVITY l s 3 , ~ s s , ~ D Y , l s s , l s 6 , t s ~ H O , t s T , t s s e l s D ' 1 ~ ° ' t 6 ~ ' * ~ z ' t 6 ~ ' ~ T m ' ~see~SDeZ~O,~6a,t~3,~6~yh,~sD,~63Er,t6s t~o,~ILUe,6THf,te~,ts6m-Ir; measured spectra,T,/z,~: deduced Q,log ft. * 6 T , ~ , t T t T a , ~ 6 ~ H f , XTZW; measured T,/z. IS3rlSS ,1 STTb, 1s5 ,156 e ~ ~ D y , ,sT, tea ,1s9, ~ 80, l~t, 16z, 16 3, 166Er ,
1 5 8 1 5 9 e 1 6 0 ~ t 6 Z , t 6 3 , 1 6 4 ~ I ~LSDeI63HO,165~I~OeIT~Lyb, 16~LU, lS605 t6~Ta
D 75Gr~:
7
deduced
levels,K,J,~,k. Discussed decay,level property systesatics. FECAA ~ 971 RADIOACTIVITY tsm,XSSe~STDyetSS,lse,~STH°,tsT,~se, lsD,16oe~1"t~z't63'16~Tm" Iss,tSDet~Oe16z t6~,t~yb,tSD,t63Er .6s,~o,t~tLUet6THf,~e6ela6~-Ir; measured 7 spectra,T~/z,~: deduced Qelog ft= teT,*6~,t~*Ta,*6~Hf, t~zW; measured T,/z. ,s~, xss ~ STTb,, ss ,,s~, ~S~Dy , * s~, ,me, ,s~, ~ eo, ,et, t6a, ~6 ~, ,~6Er , t s s , t s D e t 6 O e l S Z , t 6 ~ , 1 6 4 T ~ e l S D e 1 6 3 H o , 1 6 S e ~ O , t71yb, t6TLu, ls60s deduced levels,K,J,w,k. Discussed decay,level ~ro~er%y syste~atics. FECAA ~ 971 A = 169
~6~Tm
~69Yb
*e~Hf
*~gTa
NUCLEAR REACTIONS *SDTb, t6SHo,~69Tm,*~SLu,*atTa(e,e'p),E=15-O"23-O ~e~; measured ,(E,Ep,8). tSDT~e165~Oe~69Tm,tTSLuelStTa deduced isobaric analog resonances,displacement energies,FT. Enriched target 'TSLu. Natural target ,S,Tbet6SHo,*eDTm,:S*Ta. NUPAB A260 172 ~ADIOACTIVITY *~DYh; measured I(ce) ,subshell ratios. ~ T m transitions deduced D 75Me08: ICe. IANFA 39 550 76Ar06 ~. RADIOACTIVITY ~6~Yb; measured ET,I(ce),subshell ratios, Auger spectra. * ~ T m deduced levels,J,~,7-multipolarityMass-separated source. IANFA ~0 32 RADIOACTIVITY *S3e*SS,~STDy,lSS,*Se,~STHo, tST, 15S~e lSDeIL6Ge161"I62"16~e166Tm# D 75Gr~: 15e,tsD,~6o,~z,x63,~6~yh, tsD,X~3Er,~6s,t~oe|TILu, 16~Hf,*e6,~e~m-Ir; measured 7 spectra,T,/a,~; deduced Q,log ft. *eT,*6",*TtTa, t69Hf,*TZW; measured T,/z. I s ~ , t s s , , ~ T b ,s s ,ts6,tsTDyetST ,sa,,sD,,eo [6,,tez , 163, 16~Er, tSSetS~et6o,t~,163,t6~Tm is9 t63Ho,lese1~Oe1~tYb, 1~TLu, ls60s deduced levels,K,J,~,k. Discussed decay,level ~ro~erty systematics. FECAA ~ 971 RADIOACTIVITY ts 3,ts5, ~STDY, ~ss, Is~, xSTHO, ~ sT, 1s6, teD, I~0, ~6~, t 6re ~ 3 , t ~ T m , D 75Gr~: ~LSS~ISD,Z6O,I~ae]L63,JL6~,yb~lSD,163EE 16s,17c, t~ILu,*~THfe~ee,*e6m-Ir; measured 7 spectra,T,/z,~; deauced Q,log ft. ~ , t e e , t T * T a , * ~ D H f , * T z W ; measured T,/a. ~s~,ts5 tS~Tb ,tss,ts~,tsTDy , ts~,~sa,tsD,*eo ~6~,.6z, ,~,,66Er, tss,159 ~60,l~Ze163,I6"~T~,XsDele3Ho,t65,tTOetT~Ybet6TLu,~e60S deduced levels,K,J,~,k. Discussed decay,level p~o~erty systematics. FECAA ~ 971 R 76Su02 :
A =
~oLu
D 75Gr~% :
170
RADIOACTIVITY t53,lSSetS~DyelSS,1s6,tSTHOelST, xse, 159,16°,~6~, 16ze~63,t66Tm, tss,tsD,t6ott6a,t63,t6~YbetSD,~63Er,t6s,~o,1~Lu,~6~Hf,~s6,186~-Ir: measured spectra,T1/z,~; deduced Qelog ft. x~T,te,,~71Ta, 169Hf, *TAW; measured T,/a. ts~,tss,~STTb,~Ss,lse,tsTDy ,,sTetss,*sD,t eo,,6,,,~z,-63,,66Er ,
lsee~s916o~tOZe163,t64Tm,lSDe~L~3Hoet65,tToet~lyb~t67Lu, ls60s levels,K,J,,,ko
Discussed
decay,level
A
~Lu
~ Ta
=
property
systematics.
7
deduced
FECAA ~ 971
171
RADIOACTIVITY *T*Lu; measured ET,l(ce); deduced ICe, log ft. 17*yb levels deduced J,w,k,6. IANFA 39 523 RADIOACTIVITY ,T,Lu[from Ta(660-~eV p,X) ]; measured I (ce),subshell-ratios. 75Ar26: *TtYh transition deduced anomalous El,penetration. IANFA 39 1773 RADIOACTIVITY ts3,1ss,lSTDy,lSSrlS6ttSTHOe,S7 , t58, IsD,16o,16t,16z,163,166Tm, 75Gr~: ise,lsD,16o 15ar163,164yhslsDt163Ere165,lTOe171Lue16THf, le6,186m-lr: measured spectra,Tt/z,~; deduced Q,log ft. *eT,169,17XTa,*egHf,*~aW; measured T,/aIs3, tSS et STTbe tSS elS6 , tSTDy, tsT, Iss e tsD ,16Oe16t ,16ae 16 3, 166Er, 158,159,16o,16ae163,164TmelsD,163Ho,16s,17eeITIYbet6TLu, lS60s deduced levels,KeJ,~,k. Discussed decay,level property systematics. FECAA % 971 R 76Sci g: NUCLEAR REACTIONS '6*Dy,*T*Yb(p,n),E=8.5 ~eV; ts~Dy,*T3Yb(p,n),E=8 MeV; measured 77-delay. ,61,,e3Ho ,171,1T~Lu levels deduced T,/a,B(k). Enriche~ targets. Plastic scintillator,Ge(Li} detector. NUPAB A265 58 RADIOACTIVITY 153,155,1STDYelSSelS6,1STHo,*sT, ISaw*SDe*6°t16*,16a,163,166Tm, D 75Gr~: ise,lsD,16Oei62,163,164yb, l s D , 1 6 3 E r , 1 6 s , 1 7 C e 1 1 1 L u , ~ H f e l e 6 , 1 s 6 m - l r ; measured spectra,T~/z,~; deduced Q,log ft. teTet69,*~*Ta,*69Hf, xTzw; measured T,/a. ,s~,,ss,,STTb,,Ss,zs~,.s~Dy ,,sT,tssrtsD,*~o,*6*,*6z,*6~, ,~Er, tssexsDe16o~162,163,t~T~etSD,163Ho~t65,l~,~T~Ybe~6~LUelS60s deduced levels,K,J,~,k. Discussed decay,level ~ro~ezty systematics. FECAA ~ 971
D 75Ar15:
29
7
7
KEY NSMBERS AND KEY WORDS
A = 172 1~ZLu
D 75Dz02:
1TaW
D 75Gr4~:
R A D I O A C T I V I T Y *7~Lu; measured n o t h i n g , a n a l y z e d previous data; deduced 13g ft. 17~Yb deduced levels,J,~,K. IANFA 39 1277 R A D I O A C T I V I T Y lS3elss,' STDy, Iss,ls6, ISTHo, I ST, "as, ~sg,z 60,161,16a, 16~,~6~Tm, Ass, Is9,1 60,16a,~63,16~Yb, Isg,I~3EE ,16s, 1 7c, ~71Lu, 167Hf, I e6, I s~m-Ir ; measured spectra,T,/z,~ ; d e d u c e d Q,log ft. ~ T , ~ 6 9 , 1 7 ' T a , 169Hf, 1TAW; measured T,/a. I s a , x s s , t S T T b , l S s , l s ~ , i s T D y , I$~,,sa i s g , x e o , 1 6 , , x 6 ~ , , ~ a , , 6 6 E r , 15s ~ 1 5 9 , 1 6 0 , 1 6 2 , 1 6 3 , 1 6 ~ T m e 159,163H0 ,~ 65, I 7G, 1 7 1 [ b , 16~Lu, 1 s60s deduced levels,K,J,~,k. D i s c u s s e d d e c a y , l e v e l p r o p e r t y s y s t e m a t i c s . FECAA ~ 971 A = 173
173Lu
R 76Sc19:
NUCLEAR measured targets.
REACTIONS 16,Dy,1~,Yb(p,n) ,E=8.5 ~ ; ,63Dy ,,73Yb(p,n),E=8 MeV; ~ - d e l a y . t6,,,63Ho ,,71,1~3Lu levels deduced TI/a,B(A). Enriched Plastic scintil!ator,ge(Li) detector. NUPAB A265 58
A = 175 i 7SLu
17SHf
R 76Su02:
NUCLEAR REACTIONS ISgTb,16SHo, 16~Tm,*TSLu, l a * T a ( e , e ' p ) , E = 1 5 . 0 - 2 3 . 0 MeV; measured .(E,Ep,O). ~S~Tb,16SHo,*6~Tm,17SLu,'81Ta deduced isobaric analo~
r e s o n a n c e s , d i s p l a c e m e n t energies,FT. Enriched target ir~Tu. Natural target • S ~ T b , 1 6 S H o , * 6 9 T m , l e I T a . NHPAB A260 172 D 76 PrO3 : R A D I O A C T I V I T Y *TsHf [from *7~Hf(n,7)]; m~asured E~,IT. 17SLu deduced transition. Ge(Li) detector. PRVCA C13 2591
A = 176 I;6Hf
R 76Ha26:
NUCLEAR REACTIONS 7 ~ S e , l S 4 , z s 6 , 1 s a , 1 6 O G d , 1 7 6 , 1 7 s iSOHf(~,a, 7)#E=11-17 ~eY; measured Coulomb excitation. S S N i ( * 6 0 , 2 p T ) , E = 4 ~ - 4 6 HeY; measured ET,7-delay. 7zSe levels deduced TI/a,B(A). 15~,ts~,*sa, 16UGd, 176, 'Ta, laoHf levels deduced B (k). IANFA ~0 18 A = 178
1 78Hf
D 76De20:
R 76Ha26:
76Ro09: 178W
E 76Ca15:
R A D I O A C T I V I T Y 17Sm-Hf [from *8*Ta(y,2np) ]; measured E;,I~,I(ce),77-coin, ET-coin,XT-coin. 17SHf deduced levels,J,,,ICC, g, m u l t i p o l a r i t i e s . Ge (Li),Si (Li), i n t r i n s i c Ge detectors. Natural targets. NUPAB A263 397 NUCLEAR REACTIONS 7 2 S e , l S 4 , 1 s 6 , 1 s a , 1 6 O G d , * 7 6 , * 7 8 , 1 S ° H f ( ~ , ~ ' ~ ) , E = 1 1 - 1 7 MeV; measured Coulomb excitation. S S N i ( * 6 0 , 2 p y } , E = 4 4 - 4 6 SeV; measured ET,;-delay. 7zSe levels deduced T,/z,B(k) . is~,is6,,s8 16OGd , 176, ,TS,,SOHf levels deduced B(i}. IANFA 40 18 NUCLEAR REACTION * T T H f ( n , 7 ) , s e l f - i n d i c a t i o n , E = 1 0 - 3 0 0 eV; measured ,(E,ET). *TaHf resonances deduced Fn,S. S t a t i s t i c a l test for i n t e r m e d i a t e structure. N U P A B A264 93 NUCLEAR REACTION l a * T a ( p , 4 n ) , E = 3 3 . 3 - ~ . 6 M~V; measured E~,£T,I(ce), 77-coin,7 (8),pT-delay,pce-delay. 17sW d e d u c e d levels, J,~,ICC, T1/a, m u ! t i p o ! a r i t i e s , B ( E 1 ) . Single gap e l e c t r o n spectrometer, Ge(Li) detectors, natural targets. NUPAB A265 1
A= 179 ITgLu 179Hf
R A D I O A C T I V I T Y 179Lu [from *8oHf(;,p) ,*79Hf(n,p) ]; measured ET, I~,TT-coia; deduced log ft. ZTgHf deduced levels ,J ,r. PRVCA C13 2512 R A D I O A C T I V I T Y IsoSm,179Hf,19aIr; m e a s u r e d double internal conversioneICC. D 75Pr06: YAFIA 21 1145 NUCIEAR REACTIONS tTSHf(n,T) ,E=-th; measured ET, I T , I ( c e ) , T T - c o i n . *;gHf deduced R 76Be23: l e v e l s , J , w , K , I C C , t r a n s i t i o n multipolarities. Enriched targets. NHPAB A262 273
D 76Hi07:
A
*8OHf
R 76Ha26:
=
180
NUCLEAR REACTIONS 7aSe, * s ~ , * s 6 ~ * s s , * 6 c G d , * T 6 , * T s , * 8 ° H f ( a , a ' ~ ) , E=11-17 MeV; measured Coulomb excitation. S e N i ( * 6 0 , 2 p T ) , E = 4 ~ - ~ 6 ~eV; measured ET,7-delay. 72Se levels deduced T,/2,B(i) . 1 5 ~ , i s 6 , 1 s s , 1 6 O G d , 176, 178, ISOHf levels deduced B(k) . IANFA 40 18
30
KEY NUMBERS AND KEY WORDS
A
Is~Hf
D 76Ca11:
le~Ta
76Sh10: J 76Ba20: R 76Su02:
~S~Re
R 76Ne03:
lsIOs
R 76Ne03:
IS*Hg
J 76Ho09:
R 76Ca10~
=
~83Hg
J 768009=
R 76Ca10:
IS4Re
D 76K106:
IS~Os
R 76Ne03:
76Sh15:
183
NUCLEAR REACTIONS ISITa(a,~n~),E=52 MeV; *sz, Is4,186W(a,znT),X=%,5,6,7,E=65-88 MeV; measured E~,IT,TTAt-coin,~7-delay. ,S,Re ,,s,, Is3,*8~Os deduced !eve!s,J,~,T,/a,k, 7-branching,6. Enriche~ targets. Ge(Li) detectors. NUPAB A261 189 NUCLEAR MOMENTS IeI,18~,Iss,*s~,*89,1~IHg; measured hyperfine splitting,isotope shift,nuclear spin. IsI,Is3,*ss,*s~,IsPHg; measured g. ZEPYA A276 203
A
i s4W
182
NUCLEAR REACTIONS Iso,le~W(t,p),E=15 MeV; measured ,(Ep, e): deduced Q. le~,is~W dedeced ~ ratios,systematics. Enriched targets. NUPAB A261 4~5
=
R 76Ne03:
181
RADIOACTIVITY 18IHf; measured ICC for 6. ~-keV transition in * S'Ta. ZEPYA A277 59 ~ADIOACTIVITY ~SIHf; measured 7T(t)- 18'Ta level deduced T,/a. AJPIA 4~ 380 NUCLEAR ~OSENTS ISITa; measured hyperfine field in ZrZn a. JPCPA C9 1303 NUCLEAR REACTIONS "5~Tb,I~sHo,I~PTm, I*sLu,lelTa(e,e'p),E=15.0-23.0 ~e~; measured ,(E,Ep,e). I S P ~ b , I ~ B o , I ~ P T m , * ~ S L u , lSITa deduced isobaric analo~ resonances,displacement energies,FT. Enriched target I~SLu. Natural target • SPTb, I ~ S H o , l ~ T m , l S * T a . N~PAB A260 172 NUCLEAR REACTIONS I ~ I T a ( a , ~ n T ) , ~ 5 2 MeV; ,sa, I s % I s e W ( e , xnT),X=4,5,6,7,E=65-88 MeV; measured ET,IT,77At-coin,~y-delay. lairs, is,, is3,1a~Os deduced !eve!s,J,~eT,/a,X, 7-branching,6. Enriched targets. Ge(Li) detectors. NUPAB A261 189 NUCLEAR REACTIONS IsITa(a,4n% ~) ,E=52 MeV; lea, Is~, 1sew (e,xnT),X=4,5,6,7,E=65-88 ~eV; measured ET,IT,77&t-coin,~7-delay. ISlR~,IsI, 183,*s~Os deduced !eve!s,J,~,T,/a,k, 7-branching,6. Enriched targets. Ge(Li) detectors. NUPAB A261 189 NUCLEAR ~OMENTS *s*,*8~,Iss,*8~,ISP,'"IHg; measured hyperfine splitting,isotope shift,nuclear spin. is,,ism, iss, is;,iSPHg ; measured g. ZEPYA A276 203
A
~seW
=
=
184
NUCLEAR REACTIONS ,8o,lsaW(t,p),E=15 MeV; measured ,(Ep, O); deduced Q. 18a, ls4W deduced 9 ratios,systematics. Enriched targets. NUPAB A261 4~5 RADIOACTIVITY *84Re [from Is~W(d,2n} ]; measured ET, I~,I(ce). *8~W deduced 7-branching,ICC,7-multipolarity,6. IANEA WO 78~ NUCLEAR REACTIONS 18*T~(~,4n7),E=52 MeV; Isa, ls~, Is6W(u,xnT)eX=%,5,6,7,E=65-88 MeV; measured ET,IT,77At-coin,uT-delay. i SIR~ , isl, is3,1840s deduced !eve!s,J,~,TI/a,X , 7-branching,6. Enriched targets. Ge(Li) detectors. NUPAB A261 189 NUCLEAR REACTIONS 186,1sT,IsP,19°,lpaos(p,t),E=19 MeV; measured ~(Et,O). Is~,Iss,lsT,18s,19oos deduced levelseK,L,J,~. Pairing plus DWBA. PRVCA C13 2288
= 185 1850s
R 76Sh15:
NUCLEAR REACTIONS *86,*87,L89,zgo,1920s(p,t),E=19 ~eV; measured *"4,*es,zsT,*es,zPoOs deduced levels ,K ,L, J, ~. Pairing plus DWBA.
~SSHg
J 76Bo09:
NUCLEAR ~ O ~ E N T S ISlw183,185e187,1SP,191Hg ; measured hyperfine splitting,isotope shift,nuclear spin. 181,,e3,,ss, laT,,aPHg; measured g. ZEPYA A276 203 A = 186
31
a(Et,8). PRVCA C13 2288
KEY NgMBERS AND KEY WORDs
= 186 Continued *8eIr
D 75Gr~:
RADIOACTIVITY ls3,lssetsrDyelSSetS6,[STHoelSr, lSSelSg,16o, 161~lL~ae~63,166Tme tSSelSge16Oe162,163,16~[belsgg183Er,t65,l~O, lTILUe16~['~f,186els6m-Ir ~ measured spectra,T,/z,~; deduced Q,log ft. ~ e r , ~ e v , ~ T a , * e V H f , ~rzw; measured Tt/z. t s3,*ss,, SITb,*SS ,18~, *SIDy , 18~, tS8 ,~S~,1 60, ,61,16re *6 3, ,~SEE , 158,1sg,t60,16zex6~et6~Tm,Xsge163Hoe16s, t~o, 1~IYbe[67Lu¢1880s deduced levels,K,J,,,k. Discussed decay,level ~ro~ezty systematics. FECAA ~ 971 A = 187 NUCLEAR REACTIONS *8~,tar,*eg,.~o,tgzOs(p,t),E=19 HeY; measured *s~,*8s,tsr,'se,*9oos deduced levels,K,L,J,,. Pairiug plus DWBA.
tS?Os
R 76Sh15:
*8?pt
NUCLEAR REACTIONS ~ L s ~ , t s s , t g u , l g z o s ( ~ , 3 n T ) , E = 3 0 - 5 0 MeV; measured ~(E,EI,8},IT-coin,YI(t ) . *xr,~a~,z~zPt deduced levels,J,w, Tz/a,k. PRVCA C13 2208 NUCLEAR ~OMENTS 18~,18~,tss,tar,~ag,*~Hg; measured hyperfi~e J 76Bo09: splitting,isotope shift,nuclear s p i n . . 8 1 ,,83, tss,,ar,,89Hg ; measured g. ZEPYA A276 203
t87Hg
o(Et,~) . PRVCA C13 2288
R 76Pi03:
A = 188 t8aOs
R 76Sh15:
NUCLEAR REACTIONS ta~,tsr,,sg,*9o,z~ZOs(p,t),E=19 ~eV; measured ¢ ( E t , @ ) . ts~,zes,zs?,'ss,tgOOs deduced levels,K,L,J,.. Pairing plus DWBA. PRVCA C13 2288
t88T!
D 76Ha25:
RADIOACTIVITY *g3Pb~ measured Tt/z,ET,IT,TI-coin. teST1; measured EI, II, II-coin,I(ce} ,Ice-coin. *8"TI,*8~Hg; measured E7,I7,77 &, 7X-,Ice-coin. 188,t89Hg,Zg3Tl deduced lewels,J,,,shape isomers. IANFA ~0 2 A
,89Re
R 76Hi08:
*sgpt
R 76Pi03:
tSgHg
J 76BOO,: D 76Ha25:
18gTl
D 76Ha25:
189
=
NUCLEAR REACTIONS *sa,*9°Os(t,=),E=15 MeV; measured ¢(Ea). *ag,*gIRe deduced levels,J,,. CJPHA 54 1360 NUCLEAR REACTIONS 186,t88,.9o,*gzOs(~,3n7),~=30-50 HeV; measured ¢(E,EI,e} ,IT-coin,IT(t}. 18z,tsg,*9*Pt deduced !evels,J,,,T,/a,k. PRVCA C13 2208 NUCLEAR MOMENTS 1 8 1 L # 1 8 3 , l S S , 1 8 7 , l S g , 1 9 1 H g ; measured hyperfine splitting,isotope shift,nuclear spin. ,8,,183, ,88,,87,,89Hg ; measured g. ZEPYA A276 203 RADIOACTIVITY t93pb; measured T,/z,EI,II,TT-coin. *SAT1; measured EI,I7,77-coin ,I(ce},Ice-cOin. *8,TI,*S"Hg; m~asured EI,II,7I-, IX-,Ice-coin. *es,*89Hg,*93Tl deduced levels,J ,w ,shape isomers. IANFA qO 2 RADIOACTIVITY t"3pb; measured T,sz,EI,IT,II-coin. *SSTl; measured ET,I7,77-coin,I(ce} ,Ice-coin. *8gTl,t8gHg; measured ET,II, II-,TX-,Ice-coin. t88,t89Rg,t93Tl deduced levels,J ,, ,shape isomers. IANFA ~0 2 A = 190
1900 s
R 76Sh15:
tgopt
R 76Cu02:
NUCLEAR REACTIONS *86,187,t89,tgo,*gaOs(p,t),E=19 MeV; measured ¢(Et,8}. 184,*es,*sr,*88,*9oOs deduced levels ,K ,L, J, ,. Pairing plus DWBA. PRVCA C13 2288
NUCLEAR REACTIONS *9o,19zOs(~,4n7) ,*ee, tgoOs(~,2n7},E=28-50 MeV; measured e(E,EI,0),TT(t}. ,go,lgzpt deduced !evels,J,.,T,/z,backbending. PRVCA C13 2197 NUCLEAR REACTIONS 190,tgZOs(~,4nT | ,E=~3-51 ~eV; ,sa,,98,*gzos(~,2nT),E=23-27 76Nj01: MeV; measured ¢(E~,EI,8} ,EI,IT,IT-coin,TI-delay,Ee, Ie. *9o,*gz,*949t deduced levels,J,,,Tt/z,ICC. Calculations within the rotation-alignment model. NUPAB A262 328 A =
*9*Re 19*pt
191
NUCLEAR REACTIONS 188,tgOOs(t,a),E=15 MeV; measured o(Ea). Ieg, 191Re deduced levels,J,,. CJPHA 5q 1360 NUCLEAR REACTIONS *e6,las,*ga,tgzOs(~t3n7),~=30-50 MeV; measured R 76Pi03: ¢(E,E7,e),TI-coin,TT(t}. 16T,*ag,*gtPt deduced levels,J,,,T1/z,k. PRVCA C13 2208 R 76Hi08:
32
KEY
NUMBERS
AND
KEY
WOR~S
A = 191 Continued 191Hg
J 76Bo09:
NUCLEAR MOMENTS *81,1a3,'~s,lS~,ls~,*9~Hg; measured hyperfine splitting,isotope shift,nuclear spin. lel,*e3, las, 18~,la~Hg : measured g. ZEPYA A276 203 A
l~sir *gapt
=
192
RADIOACTIVITY *sosm,'~"Hf, l"zIr; measureO double internal ccnversiou,ICC. YAFIA 21 1145 NUCLEAR REACTIONS tgo,~gZOs(a,4~7} ,'as,xg°Os(~,2nT},E=28-50 ~eV; measured R 76Cu02: ~(E,~T,O),77(t). .9o,tgzpt deduced levels,J,,,Tl/z,backbending. PRVCA C13 2197 NUCLEAR REACTIONS t~o,t,aOs(¢e4n7 ) ,E=q3-51 ~eV; 18a, tgo,~gzOs (a,2nT},E=23-27 76HJ01: ~eV; measured ~(E~¢E7,O) ,ET,IT,77-coin,TT-delay,Ee, Ie. 190,l~Z,'9~pt deduced !evels,J,~,Tl/z,ICC. Calculations within the rotation-alignment model. NUPAB A262 328
D 75Pr06:
A =
tg~pb
D 76Ha25:
RADIOACTIVITY 193pb: measured T,/z,ET,IT,TT-coin. *SAT1; measured ET,!7,77-coin,I(ce} ,Toe-coin. lSgTl,tagHg ; m~asured ET,IT,77-, 7X-,Tce-coin. 188,lSgHg,193TI deduced !evels,J ,w ,shape isomers. IANFA 40 2
A =
lo¢pt
R 76Hj01:
NUCLEAR REACTIONS *"TAu(7,7); measured Mcssbauer effect. 197Au deduced isomer shifts ,electric quadrupole Splitting ,correlation in various Au compounds. ZEPYA 2~0 1 NUCLEAR REACTIONS zosPb, 197Au(p,p'),E=61 MeV; measured ~(Ep',O). 197Au deduced 76Be25: no fine resonance structure, aUapb deduced giant resonance structure,L,~(L}. DWBA. PRVCA C13 2 2 t l l
D 76Bo16:
PADIOACTIVITY
t99Au
P 75Velq:
*egpo
D 76Ko13:
=
200
RADIOACTIVITY zoopt; measured Ta/z. zoopt, deduced log ft. zo"Au,zo°Hg deduced levels, 2~84 D 76 8i06 : RADIOACTIVITY zoopt; measured T,I a. zoopt, deduced log ft. 2OOAu,ZOOHg deduced levels, 2Q8~
D 76Hi06:
A
zoxpo
199
RADIOACTIVITY *99Au; measured ~7(8); deduced shape-correction factor. IJOPA 166 RADIOACTIVITY 199ei99mtZOXwZO!me~O3,,aO3m-Po; measured ET,IT,TT-coin,I(ce) ,Tl/z; deduced ICC,EC-£ranching. 199, zol,zo3Bi deduced leve!s,J,w,k. APOBB B7 141 A =
zoo Au
198
ST,eOCo,'3TCs,lSZEu,lS3Sm, 19SAu; measured E¥. ZENAA 31a 387
A
zoopt
197
R 70Ba83:
A = 198Au
19~.
NUCLEAR REACTIONS *9o,tgzOs(a,4nT),E=43-51 BeY; xss,19o,19zOs(a,2nT),E=23-27 MeV; measure4 a (Ea,ET,0) ,ET,IT,TT-coin,TT-delay,Ee,le. '90,19Z,194Pt deduced levels,J,w,T,j~,ICC. Calculations within the rotation-alignment model. NUPAB ~262 328 A =
197Au
193
D 76Ko13:
=
aUOAu; measured ET, IT, TT-coin; J,w. Ge(Li) detectors. P~VCA C13 zOOAu; measured ET, IT, TT-coin ; J,w. Ge(Li) detectors. PBVCA C13
201
RADIOACTIVITY t99,X99m,ZOl,ZOXm,ZO3,zu3m-po; measured E7,1T,TT-coin,I(ce},T,/a; deduced ICC,EC-hranching. *99, aot,a"3Bi deduced levels,J,w,k. APOBB B7 141 33
13
KEY NUMBERS AND KEY WORDS
A = 202 zo ~'po
R 76Be12:
NUCLEAR REACTIONS ~eZAu(~OB,xnT) ,(~tB,xnT),zo~pb(a, xnT),E=50 MeV; z°ePb (=,xnT},E=77 MeV: measured ET,IT,77(t },7(8)" zua,zo~,zo6Po deduced !eve!s,J,v,T,/z. PRLTA 36 1128
A = 203 ZO3T 1
R 76Da12:
203p o
D 76Ko13:
NUCLEAR REACTIONS S6Fe, ZO~Tl(n,n,7); measured 7(8). 56Fe,ZOSTl levels deduced O,~. NUIMA 134 291 measured RADIOACTIVITY *~9,t~gm,zo*,zo* m , z o ~ , 2 o ~ m - P o ; E7,I7,77-coin,l{ce) ,T,/a~ deduced ICC,EC-hranching. *"9, zoo,zomBi deduced leve!s,J,~,k. APOBB B7 141
A = 20% zo*p o
R 76Be12:
NUCLEAR REACIIONS * ~ A u (tOB,xnT) ,(t*B,xnT),zo6pb(=,xnI),E=50 HeY; zsePb(~,xnT),E=77 MeV; measured ET,17,77(t),I(8). z°z,zo'~,zo6Po deduced leve!s,J,~,T,/m. PRLTA 36 1128
A zOSPb
R 76Li09"
=
205
NUCLEAR REACTIONS ZOdHg(=,3n7),E = ~ 0 ~ e V ; measured ET,IT,7(t),I(ce) ,77-coi,,7(8,H) : zOSpb deduced levels, J,w, Tx/z,k,ICC, B(k},g. ZPAAD A277 273
A =206 zOepb
R 76Mc05:
zOepo
R 76Be12:
NUCLEAR REACTIONS zu6,zoT,zoapb(7,n ) ,E=8.120,8.533,8.999 MeV; measured e(E, En); deduced Q. zo6,zoT,aOSpb levels d~duced rn, S. PRVCA C13 1864 NUCLEAR REACTIONS 1 9 7 A u ( t U B , x n 7 ) , ( * ' B , x n 7 ) , z o 6 p b ( a , x n I ) , E = 5 0 MeP; zOSpb(~,xnT),E=77 MeV; measured E~,IT,TT(t),7(8 ). zoz, zod, zo6po deduced levels,J,w,T,/a. PRLTA 36 1128 A = 207
zOZpb
J 76Bo14:
NUCLEAR MOMENTS zozpb; measured temperature dependence of hyperfine interaction in CaWO 4. ZPBBD B23 307 R 76Mc05: NUCLEAR R~ACTIONS zo6,~oT,z.spb(T,n) ,E=8.120, 8. 533, 8. 999 MeV; measured w(E,En): deduced Q= zo6,zoT,2oapb levels deduced Fn,S. PRVCA C13 1864 D 76Av01: R A D I O A C T I V I T Y zuTBi; measured 77(8). zOTpb transitions deduced 6. PRVCA C13 2067 76 Av02 : RADIOACTIVITY sTCo, ZOTBi: measured ca-spectrum. NUIMA 133 579
ZOTBi
A = 208 zospb
R 76Be25:
NUCLEAR REACTIONS zosPb,*97Au(p,p,),E=61 MeV; measured e(Ep',~). *gTAu deduced no fine resonance structure, zOSpb deduced giant resonance structure,L,~(L) . DWBA. PRVCA C13 2241 76De I ~: NUCLEAR REACTIONS zosPb(~,~,7),E=35 MaP; measured ~'~(8). aoaPb level deduced J,w. PRVCA C13 2089 761n03: NUCLEAR REACTIONS zesPb(p,p,),E=185 MeV~ measured w(Ep',8}, zssPb levels deduced ~ (L). PHSTB 13 208 76 Mc05 -. NUCLEAR REACTIONS zo6,zoT,zuepb(7,n) ,E=8.120,8.533,8.999 SaP; measured e(E, En); deduced Q. zo6,zoz, zUSpb levels deduced Fn, S. PEVCA C13 1864 76Moi 8: NUCLEAR REACTIONS zusPb(p,p,),E=~5 MeV; z°sPb(3He,3He'),E=70 MeY~ measured e(8). zosPb deduced resonances,L. PRLTA 37 263 76Sm03: NUCLEAR REACTIONS zOSPb(7,7 ) ,E=1354 keV; measured resonance absorption, zoapb deduced resonance,r. PRVCA C13 2071 A = 209
Z°gTI
.
.
.
.
.
~UCLEAR REACTIONS ztoPb(t,~),(t,d) ,E=20. O ["leV; measured ~(E~,@),q(Ed,e). ZOgTl,Zt*~b deduced levels J,w,L. E n r i c h e d target. NUPAB A259 435
R 76EI07:
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
34
KEY
MUMBERS
AND
A =
z~Opo
D 7~Sc~I:
RADIOACTIVITY JPAGB A7 1171
a*Opo;
KEY
WORDS
210
m e a s u r e d L X-ray/=
emission, L X-ray subshell
ratios.
A = 211
z**pb
R 76EI07:
ax, Bi
R 76F!12:
NUCLEAR REACTIONS a*opb(t,~) ,(t,d) ,E=20. O M~V; measured ,(E~, O ) , o (Ed,8). a O g T l , a , * p b deduced levels J,w,L. E n r i c h e d target. NUPAB A259 435 NUCLEAR R E A C T I O N S aospb,2O,Bi(t,p) ,E=17 ~eV; m e a s u r e d ,(Ep, O). a**Bi d e d u c e d !evels,L. NUPAB A263 365
A = 223 223R a
D 76Li13=
RADIOACTIVITY 13~ 553
22~Ra;
m e a s u r e d Doppler effect,
A ~STh
R 76As02:
=
aXgRn levels deduced T,/~.
NUI~A
235
NUCLEAR REACTIONS a ~ s U ( ~ , ~ ) , E = t h e r m a l ; deduced mass,QS. NUPAB A259 ~29
m~asured ,(E~); deduced Q. Z~STh
A = 237 amTNp
D 76Sk01:
R A D I O A C T I V I T Y z3TNp; 5~ 1409
measured ET,IT,TT-ccin.
a33Pa deduced levels, J,,. C J P H A
A = 238 238pu
D 68By01:
P A D I O A C T I V I T Y 24~Cm,a4u,z38Pu; z4oPu,236,234U. PHRVA 170 80
measured ax-coin, L - s u b s h e l l yields in decay to
A = 239 a39p u
D 75A!15:
R A D I O A C T I V I T Y z39Pu; source. IANFA 39 ~82
measured T,/a.
Absolute %wa-X counting, m a s s - s e p a r a t e d
A = 240
a~opu
D 68By01:
R 76Go13:
R A D I O A C T I V I T Y ~4~Cm,a4u,23ePu; measured =x-coin, L - s u b s h e l l yields in decay to 24oPu,236,~34U. PH~VA 170 80 NUCLEAR REACTIONS a39pu(d,pF),E=13 MeV; measured ,,fission probability, a4oPu deduced resonance,K,w. PYLBB 62B 280
A = 243 2%3Am
J 76Bo13:
NUCLEAR ~O~ENTS a43Am; measured isomer shift,Q ratio. c o m p o u n d s . JINCA 38 1291
M o s s b a u e r studies in Am
A = 2~4 24~Cm
D 68By01:
R A D I O A C T I V I T Y a~4Cm,a~u,23SPu; z4oPu,a36,234U. PHBVA 170 80
A zsocf
R 76Ya02:
2SOEs
D 76Ya02:
=
measured
=x-coin,L-subshell yields
in decay to
250
NUCLEAR REACTIONS z49Cf(d,p),E=-12 MeV; 2 4 9 B k ( ~ , t ) , E = 2 8 MeV; measured ,. asocf deduced l e v e l s , J , w , K . PRLTA 36 1125 R A D I O A C T I V I T Y ZSOEs; measured ET,I 7. 2socf deduced leve!s,K,J,~. PRLTA 36 1125
35
KEY
NUMBERS
AND K E Y
WORDS
A = 252 asaCf
R A D I O A C T I V I T Y 2saCf(SF); R A D I O A C T I V I T Y 2saCf(SF): R A D I O A C T I V I T Y as2Cf(SF) ; detector. PRVCA C13 1952 R A D I O A C T I V I T Y 2saCf(SF) ; 76Ya03: mass d i s t r i b u t i o n s , v - b a r .
D 75De~2: 75Te02= 76Wo0~:
measured stopping power in air. PZETA 22 526 measured f r a g m e n % - , 7 - f i s s i o n spectra. YAFIA 22 ~62 measured ~(ET,e | from fission fragments. Ge~Li) measure~ fission NUIHA 13% 119
36
fragment spectrum, p r e - , p o s t - n e u t r o n
NUMBERS
A
~H
J 75Ph03: R 76Bo08:
R 76 BOO8:
~He
6Li
R 76Bo08:
7Be
2
=
3
=
NUCLEAR REACTIONS ,o,**B s s , 6 ~ N i , , L a , , 2 ~ S n , , s o is4Sm(p,X ),E=600 HeY; measured ~(90 o} for production of *,a,3H,3,4,6He,6,7,eLi,TBe,~(E{3He),%),,(E~,O) ; deduced isotopic ratio of ssigma,two-dimensional isospin correlation of ,. Enriched targets. Si detectors. NUPAB A260 446
=
6
R 76Bo08 :
NUCLEAR REACTIONS *o,lIB,ss,64Ni,*'z,'Z4Sn,*Soe*s4Sm(p,X),E=600 MeV; measured ¢(90 °) for production of ',~,3H,3,4,SHe,6,7,,Li,TBe, u(E(3He) ,8),~(E=,8) ; deduced isotopic ratio of ssigma,two-dimensional isospin correlation of e. Enriched targets. Si detectors. NUPAB A260 446 R 76Be22: NUCLEAR REACTIONS OLi(e,e') ,~=0-8 HeY; measured , (E, %) , 8=99.9 o, 140.7o. 6Li levels deduced form factors. Comparison between form factors,~-d cluster model calculations. NUPAB A262 196 76Bo08: NUCLEAR REACTIONS io,11B,ss,64Ni,1,2,1a~Sn , t o o ,S4Sm(p,X),E=600 HeV; measured (90 o) for production of *,~,3H,3,•,6He , s , 7 eLi ,Toe ,e(E(3He),8), e(Ea,8) ; deduced isotopic ratio of ssigma,two-dimensional isospin correlation of ,. Enriched targets. Si detectors. NUPAB A260 446
A
7Li
=
NUCLEAR REACTIONS JH(w-,3nT),E=200 HeY/c; m~asured pair spectra: deduced no evidence for hound trineutron. 3H deduced r~lative capture branching ratio. PRLTA 36 942 76Bo08: NUCLEAR REACTIONS ZO,l*B,SS,6~Ni,lla,,a4Sn,lSO,*s~Sm(p,X),E=600 MeV; measured (90 ~) for prod~ction of *,Z,~H,3,~,~He,6,7,eLieTBe,,(E(3He },8),.(E~,8} deduced isotopic ratio of ssigma,two-dimensional isospin correlation of ,. Enriched targets. Si detectors. NUPAB A260 ~ 6 R 76 BoO8 : NUCLEAR REACTIONS lo,,1~,ss,6~Ni,,,a,,a~Sn ,,so,,s~sm{p,x),E=600 HeY; measured ,(90 o) for production of I,a,3H,3,~,6He,6,7,SLi, TBe,~(E(3He),~},~(E,,,O) ; deduced isotopic ratio of ssigma,two-dimensional isospin correlation of ~. Enriched targets. Si detectors. NUPAB A 2 6 0 ~ 6
A
6He
I
R 76Bi05:
A
~He
WORDS
NUCLEAR REACTIONS 10,l~B,se,64Ni,l,a,~a~Sn ,*so,,s~Sm(P,K),E=600 HeV; measured (900) for production of ",a,3H,3 4,6He,S,7,SLi,TBe ,.(E(~He),%),~(E=,~) ; deduced isotopic ratio of ssigma,two-dimensional isospin correlation of ,. Enriched targets. Si detectors. NUPAB A260 ~ 6
A
~H
=
KEY
NUCLEAR MOMENTS *H; measured p(E)/p(p) in HaO. PRLTA 35 1619 NUCLEAR REACTIONS ,o,**B,Se,6~Ni,,ta,~a4Sn ,,so,,s~Sm(p,X),E=600 HeV; measured ~(90 o) for production of I,a,3H,3,~,~He,6,7,SLi,~Be, o(E(~He),8),o (E~,%) ; deduced isotopic ratio of ssigma,two-dimensional isospin correlation of o. Enriched targets. Si detectors. NUPAB A260 ~46
A
2H
AND
R 76Bo08:
=
7
NUCLEAR REACTIONS lo,,iB,ss,64Ni,,,a,,a4Sn , , s o ,s~sm(p,X),E=600 MeV; measured e(90 ° ) for production of 1,a,3H,3 ,,6He,6,Teeii, TBe #"(E(3He),@), e(Ea, O) ; deduced isotopic ratio of ssigma,two-dimensional isospin correlation of e. Enriched targets. Si detectors. NUPAB A260 446 R 76Bo08: NUCLEAR REACTIONS 10,**B,soe64Ni,t,a,,z4Sn" Isu,*s4Sm(p,X),E=600 HeV: measured e(90 °) for production of *,a,3H,3,',6He,S,7,SLi,TBe,~(E(3He),8),e(Ea, O); deduced isotopic ratio of ssigmaetwo-dimensional isospin correlation of ¢. Enriched targets. Si detectors. NUPAB A260 446 76Ka!~: NUCLEAR REACTIONS * a C ( p , 6 L i ) , ~ 5 1 . 9 HeY; measured e(E(6Li),6). 7Be deduced levels,L. PYLBB 62B 153
KEY
NUMBERS
AND
A =
KEY
WORDS
8
R 76Bo08:
aBe
NUCLEAR REACTIONS xo,,iB,ss,e~Ni,**z,,z+Sn, iso,,s+Sm(p,X),E=600 BEY." measured • (90 o) for production of *,Z,~H,~,+,~He,~,~,~Li, ZBe,~(E(~He},~},~(E~,8} ; deduced isotopic ratio of ssigma,two-dimensional isospin correlation of ~. Enriched targets. Si detectors. NUPAB ~260 qq6 R 76~i0~: NUCLEAR REACTIONS +He(a,=) , (a,p} ,(e,d) ,E=5q.96-55.5~ MeV; • Li(p,p}, (p,p'},{p,d}, (p,~},R=11.65-11.75 MeV; measured ,{E,8). aBe deduced resonance parameters. NUPAR A259 385 NUCLEAR REACTIONS z~g,Z~Si,~zS(p,p} ; measured ~{E|. aBe, lZC,*60,ZONe, 761k01: Z~mg,zsSi,~zS,3~Ar,+oCa deduced systematics of isospin mixing in elastic p-scattering. PRLTA 36 1357
A
9Li
~Be
=
D 76Pi03:
RADIOACTIVITY "Li,*eC,~;N [from ~OBe+**Be, E=30-~O meV]; measured T,/a,delayed 7, de!ayed neutrons. '"N; measured no activity. Radioactive target. N~PAB A259 ~93 J 76VeO~: NUCLEAR mOMENTS "Be; measured hyperfine splitting frequency. Optical pumping. ZEPYA A276 161 NUCLEAR MOMENTS 9Be; measured p. ~mR method. PYLAA 56A ~ 6 76We17: NUCLEAR REACTIONS 9Be(e,,,} ,~=95.8,10~.7 NeV; measured ,. ~Be levels deduced R 78Na25: form factors. RBFSA ~ 2qI NUCLEAR REACTIONS *Li(d,p} ,E=0.613-1.9~8 MeV; measured o{E}. 9Be deduced 76ScI~: resonances. Enriched target. NUPAB A263 389 10
A=
rOBe
R 75Hu18:
rOB
R 76De15:
NUCLEAR REACTIONS 9Be(d,pT),~=1.5 meV; measured pT-coin, lOBe level deduced J,,. CJOPA 13 252 NUCLEAR REACTIONS lOB(p,p'),E=30.3 MeV; measured ,(Ep',8}. *OB deduced leve!s,L,J,~,~. HPACA ~9 227
A 12 B
D 76Ta07: R 76Ta07:
*zC
J 76Ha16: R 75~a~9: 76Ad03: 761k01: 76mo17: 76No02: 760b03: 76Pa05:
t3N
=
12
RADIOACTIVITY *zB; measured ~-assymetry. NUPAB A263 1 NUCLEAR REACTIONS t*B(d,p),E=1.3-3.0 MeV; measured polarization; deduced magnetic substate populations,J-mixing of transferred neutron, reaction mechanism. **B(d,p7} ; measured p7(8), lab deduced sign on Q. PWBa, D~BA calculations. NUPAB A263 1 NUCI.EAR MOMENTS tzC; measured hyperfine fields in Ni,Gd. IMPAC. PYLAA 56A 216 NUCLEAR REACTIONS riB(p,6), (p,p) ,E=1.8-3.0 BeY; measured ~(E,@}. **B{polarized p,~},E - 2.6 MeV; measured polarization, taC deduced resonances. IANFA 39 1736 NUCLEAR REACTIONS *OB(~He,pT),E=4.1 MeV; measured 77-coin. **B(p, 7); measured resonance 7- *zC levels deduced T-branching. PYLBB 62B 29 NUCLEAR REACTIONS z+~g,zasi,3zS(p,p); measured ~(E). SBe,*zC,*60, ZONe, z4Mg,ZeSi,3zs,36Ar,4oCa deduced systematics of isospin mixing in elastic p-scattering. PRLTA 36 1357 NUCLEAR REACTIONS laC,2eSi,4oca,sSNi(e,e'p} ,E=497 meV; measured u,missing energy,recoil momentum. *zc, zeSi,4oCa,SeNi deduced average proton kinetic,separation energies. NUPAB A262 461 NUCLEAR REACTIONS *zc,IsN,t60(p,p'),E=3~.75 MeV; measured ,(Ep'); deduced Q for astrophysical 3a burning rate. tzC,tSN deduced resonances. PRVCA C13 1773 NUCLEAR REACTIONS IzC(p,p'7),E=10.~8 NeV; measured ,(ET). *aC resonance deduced FT/F. Stellar helium burning. PRVCA C13 2033 NUCLEAR REACTIONS *zC{x,~) , (~,a') ,E=39.0,50.5 ~eV; Z4Mg(a,~),(e,~'},E=38.0,50.5 meV; measured ,{@) ; deduced Blair phase shifts. * a C , * ~ C , Z + N g deduced defcrmation ~. YAPIA 23 252 A=
,3C
9
13
NUCLEAR REACTIONS tzC{=,=), (=,~') ,E=39.0,50.5 MeV; z4flg (~,~),(a,=,} ,E=38.0,50.5 MeV; measured ~(0| ; deduced Blair phase shifts. *aC,*3C,a+Mg deduced deformation ~. YAFIA 23 252 NUCLEAR REACTIONS "zC(p,7} ,(P,P'Y) ,E=9-2q M~V; measured ,(Ep,@}. *3N deduced R 76Be28: resonances. Enriched target. NUPAB A263 109 R 76Pa05 :
KEZ
~URBERS
AND
A =
'~C
R 76Da06:
76Ma30: 76No02: R 7~E!09:
* 6C
D 76Fi03:
*6N
R 76Ho13:
160
R 76At 0~: 76Ha 1976 Ik01 :
=
i zF
RADIOACTIVITY 9Li,Z6C,ZTN [from rOBe+fiBs, E=30-40 MeV]; measured T,/z,delayed 7,delayed neutrons, tDN: measured no activity. Radioactive target. NUPAB A259 ~93 R 76Da 13: NUCLEAR REACTIONS z3C(t2C,X),E{cm)=3.1-11.9 MeV; measured ¢(E, Ev) for transitions in 170,ao,alNe,Z~,a4Na,a4~g; deduced total ¢. Optical model, statistical analysis. Ge(Li} detector,enriched targets. NUPAB A265 153 R 76Ei09: NUCLEAR REACTIONS 160 {p,p), (p,p,) , (p,=) ,E=11253-11278,12685-12725, 14500-14645 keY; measured ¢(E,e). *rF deduced resonance ~arameters. NUPAB A263 460
R 76Moi0:
*9 0
D 76Fi03 :
18
NUCLEAR REACTIONS 4aCa(180,*80 ,) ,E=50 ~eV; *sO,~eCa; deduced optical potentials. PYLBB
A =
*DN
17
D 76Fi03:
A= *sO
16
RADIOACTIVITY 9Li,*6C,*TN [from ZOBe+*ZBe, E=30-~O ~eV]; measured T,/a,delayed T,delayed neutrons. *DN; measured no activity. Radioactive target. NUPAB A259 493 NUCLEAR REACTIONS ZDF {n,X} ,E=0.1-10.2 MeV; measured ~(E, ET). ZDFezDO,Z6N deduced transitions. NSENA 60 36 NUCLEAR REACTIONS * ~ C , * 6 0 ( 6 L i , ~ ) , E = 4 5 MaY; measured d~(e) o 160, dUNe deduced •-¢!uster states. YAFIA 23 489 NUCLEAR REACTIONS z60{a,~,)¢~=10~ HeY; measured ¢(E=',8). z60 levels deduced L. PYLBB 62B 155 NUCLEAR REACTIONS ~4~g,aeSi,3zS{p,p); measured ~(E|. 6Be,zzC, 160, ZONe, a4Mg,asSi,3aS,36Ar,4eCa deduced systematics of isospin mixing in elastic p-scattering. PELTA 36 1357 A =
*vO
15
NUCLEAR REACTIONS "SB(~,p),E=1.43-2.9q MaY; measured ¢(E,e),¢(E) for z4C production in CTR. ,SN resonances deduced J,w. NUPAB A261 365 NUCLEAR REACTIONS * * B ( r L i , t ) , z o B ( r L i , d ) , ~ 2 q ~eV; measured o(8). *SN deduced levels,J. Enriched taEget,FRDWBA analysis. NUPAB A262 113 NUCLEAR REACTIONS zSN(e,e,) ,~=60-120 ~eV; measured ,(E, 8). *SN level deduced form factors,effective charge. DWBA,shell model analysis. Enriched target. JPHGB G2 L35 NUCLEAR REACTIONS *~C,*SN,*eO(p,p'),E=3~.75 ~eV; measured ¢(Ep'); deduced Q for astrophysical 3a burning rate. zaC,XSN deduced resonances. PRYCA C13 1773 NUCLEAR REACTIONS z60 (3He,e) ,E=15 ~eV; measured ¢(Ea, e) ; deduced Q. *so deduced levels,S,J,w. JPAGB A7 1183
A
zrN
I~
NUCLEAR REACTIONS **B(~,p),E=1.~3-2.94 MeV; measured ~(E,O),¢(E) for x~C production in CTR. *SN resonances deduced J,,. NUPAB A261 365 76~r02: NUCLEAR REACTIONS z * B ( a , p T ) , ~ I ~ ~eV; measured pT-coin, DSAM. *~C levels deduced Tz/a,J,w,T. ZEPYA A276 351 R 76Ao01: NUCLEAR REACTIONS z~N(d,d'),E=-10.03,11.65 HeW; measured o(Ed',~). *~N deduced isospin forbidden,allowed transitions. RYiBE 61B 437 76Si07: NUCLEAR REACTIONS *3C(p,T ) ,E=1.75 ~eV; measured ~ (ET, e). *~N levels deduced 6,branching ratios. PRVCA C13 2546
76Ko11:
zsO
WORDS
R 76Da06 :
A = *sN
KEY
measured ¢{~) to levels in 61B 213
19
RADIOACTIVITY 9Li,16C,ZTN [from ZOBe+IZBe, E=30-~O HeV]; measured T,delayed neutrons. *DN: measured no activity. Radioactive target. q93 R 76Go 09: NUCLEAR REACTIONS I80(d,pT),E=2 HeY; measured 7T(O,H). *90 level Enriched target. NUPAB A262 21q 76Moi 3: NUCLEAR REACTIONS 19Y(n,X),E=0.1-10.2 HeY: measured ,(E,ET). XgF, deduced transitions. NSENA 60 36
T,/~,delayed NUPAB A259 deduced g. ZDO,16N
KEY
NUMBERS
A = *9F
J 76Br20: R 76Mo13: 760t02: 76~o07: 76Sh12:
*gNe
D 76AI07:
2O~g
19 C o n t i n u e d
20
NUCLEAR REACTIONS * 6 0 ( 6 L i , d ~ ) , ~ 2 8 MeV; measured d~{8). ZONe deduced levels,K,J,w. YAFIA 21 1157 75Ar25: NUCLEAR REACTIONS *60(OLi,d~),E=-35.3 ~eV| measured da(8), nONe deduced levels,J,w. YAFIA 22 2~2 76ArO~: NUCLEAR REACTIONS *2C,160(6Li,d~) ,E=45 MeV; measured d~(8}. *60, nONe deduced a-cluster states. ¥AFIA 23 489 76Co15: NUCLEAR REACTIONS 2 4 ~ g , a 6 ~ g , 2 s S i ( d , 6 L i ) , E = 3 5 HeY; measured ,(8). 2o, aaNe,a4ag levels deduced S ~. DWBA analysis. NUPAB A261 373 76D213: NUCLEAR REACTIONS t3C('aC,X) ,E(cm} =3. I-I 1.9 HeY; measured #(E,ET) for transitions in tTO,ZO,Z|Ne,23,a4Na,a4Mg; deduced total ¢. Optical model,statistical analysis. Ge(Li) d e t e c t o r , e n r i c h e d targets. NUPAB A265 153 76De12: NUCLEAR REACTIONS *60,2o,2aNe,2sSi,3aS(pclarized p,p) ~ measured ¢ ( 8 } , A (8) ; deduced form of spin-orbit potential. 2o, aaNe, asSi, 32S deduced deformation parameters. Optical model,coupled-channels analysis. NUPAB A261 111 7 6 D e 16: NUCLEAR REACTIONS 20Ne(p,p'),E=24.5 MeV; measured ,(Ep',8). nONe deduced levels,J,~,~. HPACA 49 241 NUCLEAR REACTIONS a4Mg,asSi,3zS(p,p); measured ¢{E). SBe,*aC,~60, zONe, 76Ik01: ~4~g,a8Si,~aS,36Ar,~oCa deduced systematics of isospin mixing in elastic p-scattering. PRLTA 36 1357 76In05: NUCLEAR REACTIONS *60(~,T},E=6.93 ~eV; measured stopping ,,G(ET). 2oNe level deduced FT,F~,T. Ge(Li) detector. NUPAE A265 93 NUCLEAR REACTIONS lOB(*aC,d) ,E=45 MeV; measured ,(Ed, 8). 22Na deduced critical 76K103: angular momentum. ZONe deduced level energies, spins of high-spin states. Enriched target. NUPAB ~262 157 NUCLEAR REACTIONS 2~Mg(=,SHe),E=126.9 MeV; measured ~{E(aHe)); deduced Q. aOMg R 76Tr03: deduced mass excess. PYLBB 61B 353
2*F
D 76FaIO-
niNe
R 76D213: 76Fr09: J 76Hu04:
22o
R 76Hii0:
22Ne
R 76Co15: 76De12: R 76K103:
21
RADIOACTIVITY Z*F,39CI: measured CP,~T(e); deduced Fermi matrix elements. 39K transition deduced 8. ZPAAD A277 173 NUCLEAR REACTIONS ,3C('2C,X) ,E(cm} =3. I-I 1.9 MeV; measured ¢(E,E7) for transitions in *rO,ZO,aLNe,a3,a4Na,24Mg; deduced total ¢. Optical model,statistical analysis. Ge(Li) d e t e c t o r , e n r i c h e d targets. NUPAB A265 153 NUCLEAR REACTIONS *sO (~,n) ,E=4.7 MeV; measured IT, ¥T (8) ,recoil distance, a*Ne deduced branching r a t i o s , 6 , T , / a , t r a n s i t i o n strengths. NUPAB A261 471 NUCLEAR MOMENTS 2*,mONa; measured Q. Laser spectroscopy. CHDBA 282 119 A =
22Na
WORDS
R 75Ar20:
A =
a*Na
KEY
NUCLEAR ~OMENTS *~F; measured sign,magnitude, temperature dependence of uuclear g u a d r u p o l e interaction for 197-key 5/2+ state. Coulomb excited,oriented *"F implanted in Zn. NUPAB A265 35 NUCLEAR REACTIONS *gF(n,X),E=0.I-10.2 Me~; measured -(E,ET). *gF,*90,*6N deduced transitions. NSENA 60 36 NUCLEAR REACTIONS **N(3He,np),E=6.5,7.0,7.8 Me~; measured np(8),,(Ep,8). ~gF deduced levels,J,~. Natural target. NUPAB A259 452 NUCLEAR REACTIONS ~s~(m,T),E=~.465,4.618 MeV: measured ~(8),DSA. "~F resonances deduced transitions,6,T,/a. CJPHA 54 938 NUCLEAR REACTIONS *gF(T,n),E=13-21 MeV; measured ,(E, En). *gF resonances deduced F. CJPHA 5~ 1178 R A D [ O A C T I V I T Y *gNe [from 19F(p,n)]; measured IT; deduced ~-branching,log ft. PRVCA C13 2593
A =
ZONe
AND
22
NUCLEAR REACTIONS *sO(loO,*40),E=100 MeV; measured 9; deduced Q. zao deduced mass excess. PRLTA 37 130 NUCLEAR R E A C T I O N S a4Mg,Z68g,2sSi(d,6Li) ,E=35 MeV; measured .(e). 2o,ZaNe,24Mg levels deduced S ~. DWBA analysis. NUPAB A261 373 NUCLEAR REACTIONS leO,aO,2aNe, aSSi,3aS(p¢larized p,p); measured ¢(6),A{8); deduced form of spin-orbit potential, zo, aaNe ,asSi ,32 s deduced deformation parameters. Optical model,coupled-channels analysis. NUPAB A261 111 NUCLEAR REACTIONS *OB(*aC,d} ,E=45 MeV; measured o(Ed, 8}. anna deduced critical angular momentum, zONe deduced level energies, spins of high-spin states. Enriched target. NUPAB A262 157
KEY N U M B E R S
AND KEY WOR~S
A = ZaNa
R 76Ma23:
NUCLEAR REACTIONS *gF(~,n~} ,E=9.1 ~eV; measured ¢(ET,8),linear polarizatiou,DSA. ZZNa deduced levels,K,J,~,2,/~,7-branching,Q. A =
~Na
R 76Da13:
D 76Ge06: R 76Da13:
Z~Mg
R 76Ea14 : 76Ba22: 76Co15: 76Da13: 76~o07: 76Ik01: 76Ki0~: 76Le07: 76Pa05: 76Roi I :
153
24
25
NUCLEAR ~OMENTS 2*,ZSNa; measured Q. Laser spectroscopy. CHDBA 282 119 NUCLEAR REACTIONS a6~g(160,12C) ,(160,13C), (160, t4C), (160,13N), 26~g (160, t4N), (*60,1SN) , (160, t6N), (t60,1 7N), (160, *sO), (t 60, t 60), 26~g(.60,I?0), (.60,Ie0) , (.60,.7F) ,(,60 .e?) ,3osi{160,**C},E=126 MeV, a6Mg(l*B,"Li),(llB,gBe),E=114 ~eV; measured ¢(e}. aTMg, aTAl, aSMg, aSNa levels deduced S. Optical model, DWBA analysis. Enriched target. NUPAB A261 511 R 76Ba14: NUCLEAR REACTIONS z4,zsMg(T,p) ,(7,~) ,ZS~g(T,d)~Z4, zs, Z6Mg(~,T.},E<30 MeV; measured particle spectra,,(~,Ep),o(E,Ea),,(E,Ed), a4, zs, a6Mg GDR deduced particle- hole, isospin configurations. Enriched targets. NUPAB A261 149 76Be 18: NUCLEAR REACTIONS z4~g,3aS(d,p| ,E=12 MeV; measured ,(Ep,8),8=100 or 12.5 ° . zsMg,33S deduced energy leve!s,J,L,w,F. Enriched Z4Mg target. NUPAB A263 93 76Le07: NUCLEAR REACTIONS z4,as,Z6Mg(e,e') ,E=22.9-119.7 MeV; measured ¢(E, 8). a4,~s,a6Mg deduced rms radii,form factors. DWBA analysis. Enriched targets. JPHGB G2 105 76Le I 1: NUCLEAR REACTIONS aSMg{e,e'),E=61.9-119.3 MeV: measured ,(E, 8). 2SMg levels deduced radial parameters,B(E2),form factors. DWBA analysis,Nilsson model comparison,enriched target. JPHGB G2 341 NUCLEAR REACTIONS a6Mg(*60,*aC} ,(160,13C}, (160,14C), (160,13N), 76Si05: a6Mg (.60,1.N}, (160,*sN) , (160,16N) ,(160,17N), {.60, IsO}, (160,160), • 6Mg (160,170),(160,1e0} ,(*60,*TF} ,(160,*aF} ,3oSi(160,1"C),E=126 MeV, 26Mg(IIB,gLi),(IIB,gBe} ,E=114 HeY; measured o { e ) . 27Mg, a?Al, aSMg,aSNa levels deduced S. Optical model, DWBA analysis. Enriched target. NUPAB A261 511
J 76HuO~:
R 76Si05:
aSMg
23
RADIOACTIVITY ~ N a ; measured E~,shape factor, T,/a; deduced Q. zTSi; measured T./2. NHI~A 134 309 NUCLEAR REACTIONS ~3C(*aC,X),E(cm}=3.1-11.9 MeV; measured ,(E,ET) for transitions in *70,ao,alNe,a~,m~Na,~Kg; deduced total $. Optical model,statistical analysis. Ge(Li| detector,enriched targets. NUPAB A265 153 NUCLEAR REACTIONS z~,ZSMg(7,p) , (7,~) ,~S~g(7,d),a~,as, a6Mg (T,~.),E<30 MeY; measured particle spectra,,(E,Ep} ,~(E,Ea),,(E,Ed). a~ as,Z6Mg GDR deduced particle- hole, isospin configurations. Enriched targets. NUPAB A261 149 NUCLEAR REACTIONS laC([aC,p),(laC,a),E=-14-22 ~eV; measured ~(E). ~ M g deduced resonances. JPSLB 37 L 131 NUCLEAR REACTIONS a ~ M g , a 6 ~ g , a s S i ( d , 6 L i ) , ~ 3 5 ~eV; measured ,(8). zo, aZNe,a4Mg levels deduced S a. DNBA analysis. NUPAB A261 373 NUCLEAR REACTIONS *mC(*aC,X),E(cm)=3. I-I 1. g MeV: measured ,(E,E~) for transitions in * ~ O , a O , a l N e , a 3 , a ~ N a , ~ g : deduced total ,. Optical model,statistical analysis, Ge(Li) detector,enriched targets. NUPAB A265 153 NUCLEAR REACTIONS *aC(*60,~),E=40-46 Me~; measured ,(E} for 8=7o. Z~Mg levels deduced F. aESi deduced coherence widths. Hauser-Feshbach calculations,fluctuation analysis. NUPAB A262 125 NUCLEAR REACTIONS a4Mg,~ESi,3zS(p,p); measured $(E}. 8Be,*aC,*60, aONe, z*Mg,zeSi,~zS,~6Ar,*oCa deduced systematics of isospin mixing in elastic p-scattering. PRLTA 36 1357 NUCLEAR REACTIONS ~ M g ( d , d ) ,(d,d') ,E=60.6,77.3,90,60-80 ~e~ in 2-MEW steps; measured ,(Ed,O) ; deduced optical potentials, a4Mg deduced guadrupole deformaticn,coupling parameters. NUPAB A262 1 NUCLEAR REACTIONS z~,~s,aeMg(e,e'),E=22.9-119.7 ~eV; measured ,(E,e). ~ , ~ s , ~ 6 M g deduced EroS radii,form factors. D~BA analysis. Enriched targets. JPHGB G 2 !05 NUCLEAR REACTIONS *~C (e,~), (a,~') ,E=39.0,50.5 MeV; Z~Mg (~,a) , (~,~'} ,E=38.0,50.5 MeV; measured ~(8) : deduced Blair phase shifts. ' ~ C , * 3 C , Z ~ g deduced ~eformation ~' YAFIA 23 252 NUCLEAR REKCTIONS ~mNa(p,a) ,~=677,739 keY; aTAl(p,a},E=295,327,%05 keV; measured ~(8) yields, a~Mg,aESi resonances deduced F~. PRAMC 6 146 A =
aSNa
CJPHA 54 1134
NUCLEAR REACTIONS ~C(*~C,X),E(cm|=3.1-11.9 MeV; measured ,(E, ET) for transitions in * 7 0 , a o , a l N e , a ~ , ~ N a , ~ M g ; deduced total ¢. Optical model,statistical analysis. Ge(Li} detector,enriched targets. NUPAB A265 A =
a*Na
22 Continued
KEY NUMBERS AND KEY WORDS
A = 2sHg
R 76Ts03:
2SA!
R 76Ts03:
NUCLEAR REACTIONS 24Hg(19F, 16E) ,(tPF,160) , (*~F, 19F),E=92 2SHge2SA1 levels deduced S. PRVCA C13 2568 NUCLEAR REACTIONS a~Mg(*PF,~SF),(*PF,*sO), (*PE,*PF),E=92 2SMg,aSAl levels deduced S. PE~CA C13 2568 A =
26Mg
R 76Ba14:
76Gui0: 76Le07: Z6Al
R 76Sh17:
27A1
zTsi
measured
,(@) .
MeV;
measured ~(8}.
26
27
NUCLEAR REACTIONS Z6Hg(160,laC) ,('60,'3C), (160,'4C), (160,'3N), 26Mg (160,,,N), (*60,16N), (,60,,6N), (160,* 7N), (160, *sO), (, 60, x60), Z6Mg{160,170),(160,,eO) ,(,60,17F) ,(160,16p) ,30Si(160 , 14C),E=126 HeY, z6Hg(11B,PLi),(11B,PBe),E=114 HeY; measured ,(8). 27Mg,a7Al, aSMg, ZSNa levels deduced S. Optical model, DWBA analysis. Enriched target. NUPAB A261 511 NUCLEAR MOMENTS 89Y,sPCO, aTAI; measured hyperfine fields in pseudobinary J 760p01: compounds. NMR method. PLRBA B13 4698 NUCLEAR REACTIONS adMg(~,p7 ) ,E=9.0 HeV; measured ~(ET),T polarization, aZA1 R 74Pr17: levels deduced J,w,K,6. JPAGB A7 1151 NUCLEAR REACTIONS '2C (*60,pT),E(cm)=11.0-15.0 HeY; measured ¢(E, Ep,ET). aTA1 76Lu03: levels deduced J limits. PRVCA C13 2564 NUCLEAR REACTIONS 27Al(p,p'),26Si(p,p'),E=16.000, 20.000 HeY; measured ,(Ep'). 76Mo09: 27AI,ReSi deduced levels. Enriched targets. NUPAB A259 413 NUCLEAR REACTIONS 26Mg(160,12C) ,(,60,13C), (,60, t~C), (,60,13N), 76Si05: a6Mg (160,14N), (.60,1sN) , (,60,16N) ,{160,,1N), (160, IsO), (160,160), a6Mg (160,1T0), (160,180) , (160,'TE) ,(*60,1aF) ,30Si(Z60,*dC),E=126 HeY, 26Hg(I*B,PLi),(I*B,PBe),E=114 HsV; measured ,(8). 27Hg,ZTAl, aSMg,aSNa levels deduced S. Optical model, DWBA analysis. Enriched target. NUPAB A261 511 RADIOACTIVITY adNa; measured E~,shape factor,Ti/2; deduced Q. a7Si; measured D 76Ge06: T,/a. NUIMA 134 3 0 S E 76Si05:
A = zaSi
HeY;
NUCLEAR REACTIONS zd,zSHg[T,p),(7,a) ,aSMg(7,d),z4 as, a6Mg(T,T,),E<30 HeY; measured particle spectra,,(E,Ep),#(E,Ee),#{E, Ed). ad,as,z6Mg GDR deduced particle- hole,isospin configurations. Enriched targets. NUPAB A261 I%9 NUCLEAR REACTIONS laC(|eO,~),E=43.2-q5.9 HeY; measured G(E) at Olab=7U. a6Mg deduced levels,K,J,w. Hauser-Feshbach calculations, suggested J,r values. NUPAB A262 96 NUCLEAR REACTIONS ad,as,a6Hg(e,e'} ,E=22.9-119.7 He~; measured ,(E,8). a#,as,z6Hg deduced rms radii,form factcrs. D~BA analysis. Enriched targets. JPHGB G2 105 NUCLEAR REACTIONS ZTAl(p,d),E=35 HeY; measured ~(Ed,~). a6AI deduced levels,L,J,~,S. Magnetic spectrograph. HUPAB A263 293 A =
2*Mg
25 Continued
28
NUCLEAR REACTIONS adHg(6L~,da),E=24.5 HeV; measured da(8). 2sSi deduced levels,J,~,Fa. ¥AYIA 21 1169 NUCLEAR REACTIONS *zC(160,'60),*60(*aC,*zC),E(cm)=15-33 Me¥; measured q(E,8}. 76Ch13: zeSi deduced resonances,J,r. PYLBB 62B 289 NUCLEAR REACTIONS IsO,2O,22NeeReSi ,3aS(polarized p,p} ; measured , (8) ,A(8} ; 76De12: deduced form of spin-orbit potential, ao, zaNe, zsSi, 3zS deduced deformation parameters. Optical model,coupled-channels analysis. NUPAB A261 111 NUCLEAR REACTIONS *zc(160,~),E=40-46 HeY; measured 6(E) for 8=7 ° . ZdHg levels 76Go07: deduced r. 28Si deduced coherence widths. Hauser-Feshbach calculationsefluctuation analysis. NUPAB A262 125 NUCLEAR REACTIONS adHg,28Si,3zS(p,p}; measured ~(E). 8Be, laC, 160,2ONe, 76Ik01: 2~Hg,Zesi,3aS,36Ar,4OCa deduced systematics of isospin mixing in elastic p-scattering. PELTA 36 1357 NUCLEAR REACTIONS 27AI(p,p') ,2oSi(p,p'} ,E=16.000, 20.000 HeY; measured ,(Ep'}. 76Mo09: 27Ai,2sSi deduced levels. Enriched targets. NUPAB A259 413 NUCLEAR REACTIONS *2C,26Si,4OCa,SeNi(e,e'p),E=497 MeY; measured ,,missing 76Mo17: energy,recoil momentum. *zC, zsSi,*OCa,SaNi deduced average proton kinetic, separation energies. NUPAB A262 461 NUCLEAR REACTIONS 24Hg(160,lzC),E=36,42,48 H e Y ; measured ,(E(*ZC),e). 76Pe05: 2sS[ (160,12C),E=36,42, q8,53 MeV; measured ,(E(Izc),%). aaSi,3zS levels deduced S. DWBA analysis. NUPAB A264 312 76Roi I: NUCLEAR REACTIONS 23Na(p,a),E=677,739 keY; aTAl(p,a),E=295,327,405 keY; measured =(8) yields, zdMg,2eSi resonances deduced F=. PRAMC 6 146
R 75Ar21:
KEY NUSBERS AND KEY WORDS
k =
a~Al
R 76Be16:
NUCLEAR REACTIONS ~e~g(a,pT ) ,E=-I~.2 ~eV; measured pT(O),ET,IT, linear polarization. ~DAI deduced levels,J,w,5,T-branching. Enriched target. Ge(Li) Compton polarimeter. PRVCA C13 1792
A
~ap
~as
=
RADIoAcTIvITY ~ P ; measured ~ . ~UI~A 133 279 RADIOACTIVITY ~zP,+~Y,~+,~Ga; measured E~o NUIRA 133 ~57 RADIOACTIVITY 32P,sss,+sca; measured IB spectra. JPHGB G2 ~3 NUCLEAR REACTIONS aDSi(=,p7) • E=12-80,12-93, 16.30 NeY; measured PT(@),DSA,T-ray decay. ~ap deduced levels,T,/a,J,w,T-branchings, mixi~g ratios. Enriched target. NUPAB A260 12~ NUCLEAR REACTIONS *~O,aO,ZaN~,aaSi,~aS(p¢lazized p,p); measured ,(O),A(8); R 76De12: deduced form of spin-orbit potential, ao, aaN~,aoSi, 3~S deduced deformation parame%ers. Optical model,coupled-channels analysis. NUPAB A261 111 76Ik01: NUCLEAR REACTIONS a~g,zsSi,aaS(p,p) ; measu=ed ~(E). SBe,~aC,*sO,aONe, ~+~g,zaSi,saS,3~Ar,+oca deduced sysfematics of isospin mixing in elastic p-scattering. PRLTA 36 1357 76Pe05 : NUCLEAR REACTIONS a + ~ g ( ~ O , * a C ) , E = 3 6 , ~ 2 , ~ 8 ~eV; measured ~(E(*ac),e). • aSi (*~0,*~C},E=36,~2,48,53 ~eV: measured ,(E(~aC),%). aaSi,~a s levels deduced S. DWBA analysisl NUPAB A26~ 312
R 76Bo18:
~C!
=
3sC!
NUCLEAR REACTIONS 3H(ssCi,pT),(~sCl,dT),(mSCl,~7),E=55 ~e~; measured recoil distance,particle T-coin. 3 ~ , ~ C I , ~ * S levels deduced T~/~. JPHGB G2 131 D 76Wi08: RADIOACTIVITY ~Cl,~am-K,~Zm,+aSc,~V,SOMn; measured T,/a- Compared with systematics. PRVCA C13 2517
76Po04: 76Pr05: R 76Me12:
D
R 76Co11: 76No03: 76Sp06: 76Ve01:
36Ar
R 76Hu01: 76Ik01: 76No03:
35
RADIOACTIVITY 3zP,sss,+sCa; measured IB spectra. JPHGB G2 43 RADIOACTIVITY ~sca,sss; measured IBS. NaI(TI) spectrometer. JPHGB G2 331 NUCLEAR REACTIONS 3+S(p,T),E=0.7-2.01 MeV; measured 6(E,ET, 8),DSA. 3sC1 deduced resonances,levels,J,w,T112,T-hranching, 6. Enriched targets. NUPAB A264 13 A =
36Ci
3q
R 76Co11:
A = 3~S
33
NUCLEAR REACTIONS Z+Mg,~S(d,p) ,E=12 ~ e V ; m~asured ¢(Ep,0),0=10 ° o r 12.5 u. 2SMg,~mS deduced energy levels,J,L,,,F. Euriched ~ g target. NUPAB A263 93
A ~S
32
D 76Bi06: 76Ro12: 76Po0~: R 76Va09:
k =
~S
29
36
NUCLEAR REACTIONS 3H(SSCl,pT),(SsCl,dT), (ssCl,a~),E=55 ~eV; measured recoil distance,particle T-coin. s7,36CI,3+S levels deduced TI/z. JPHGB G2 131 NUCLEAR REACTIONS 33S(~,nT),(a,P7),E=6.0-I~.0 MeV; measured ,(E,ET,8),TT-coin,recoil distance ,linear polarization, a~Ar,36C1 deduced leve!s,J,w,T,2a,6,T-branching. Ge(Li) detectors,enriched targets. JPHGB G2 249 NUCLEAR REACTIONS 3sC!(Folarized n,T} ,SSCl (n,T},E=thermal: measured ET,I~,7-CP; deduced Q, polarization function R. 36Ci levels deduced 7-hranching,J,r,6. Natural targets. NUPAB A26q 63 NUCLEAR REACTIONS 4oCa,sTCl(SNe,~7),E=18 MeV; measured o(ET),a~-coin. 36C1 deduced levels,J,w,B(k),T-branching. ~gCa deduced levels. PRVCA C13 461 ~UCLEAR REACTIONS 3SCl(P,7 ) ,E=2.36-2.42 MeV; measured ,(E, ET}. 36At deduced resonances,J,w,T,6,B(M1). PR~CA C13 1786 NUCLEAR REACTIONS a4~g,aaSi,saS(p,p) ; measured q(E}. aBe,*aCe160,aoNe, Z+Mg,aeSi,SzS,m6Ar,+oca deduced systematics of isospin mixing in elastic p-scattering. PELT& 36 1357 NUCLEAR REACTIONS msS(~,nT) ,(a,PT| ,E=6.0-14.0 ReV; measured • (E, E7,8) ,77-coin,recoil distance, linear polarization, aeAr, seC1 deduced levels,J,~,T,la,6,T-branching. Ge(Li} detectors, enriched targets. JPHGB G2 249
KEY
NUMBERS
A
~Cl
38 K
=
39 K 39Ca
=
38
NUCLEAR REACTIONS a~Al{z+N,n2pT} ,E=~O HeY; measured TT-coin, recoil distance. 3eAr deduced levels,J,w,Tl/a,6. PRVCA C13 1 9 ~ D 76 Wi08: RADIOACTIVITY 3~CI,3Sm-K,+am,+zSc,+~V,SO~n ; measured Tz/a. Compared with systematics. PRVCA C13 2517 R 76Ri05: NUCLEAR REACTIONS +sea(polarized d,~),E=5.9-6.8 HeW; measured o(E}. ~SK level deduced J,~. PRVCA C13 2077
39
D 76Fai0:
RADIOACTIVITY 2zF,39CI; measured CP,~7(@ ) ; deduced Fermi matrix elements, a"K transition deduced ~. ZPAAD A277 173 NUCLEAR REACTIONS +u,+a,++,+sCa(d,3He) ,+o,++Ca(d,t),E=52 MeV; measured ¢(8). R 76Do05: 39,+l,+3,+VK,39,+3Ca deduced levels,J,~,L,T,/2,S. Enriched targets. NUPAB A263 210 NUCLEAR REACTIONS +o,+a,++,+eCa(d,3He),+o,++Ca(d,t),E=52 MeV; measured ¢(8). R 76Do05: 3",+',+3,+~K,~9,+3Ca deduced levels,J,w,L,Tz/z,S. Enriched targets. NOPAB A263 210 76 VeO 1 : NUCLEAR REACTIONS +oCa,3VCl(~He,~7} ,E=18 Me~; measured o(ET),~7-coin. 3oCi deduced levels,J,r,B(k),T-branching. 39Ca deduced levels. PRVCA C13 ~61
+OAr
R 76So03:
+oK
R 76Bo21:
+oca
R 76Ik01: 76Im03:
76Hol 7:
R 76Do05:
76Me09: R 76Br15: 76Me09: 76Mu05:
40
NUCLEAR REACTIONS +OAr(p,p'T),E=6.75 MeV; m~asured p'7-coin, DSA. 4OAr levels deduced Tz/2,J,B(X ) . JPHGB G2 117 NUCLEAR REACTIONS Z+Hg (,gF,n2p) ,asSi ( Z+N,2p} ,E=~2,38 NeV; measured 17 (e,H). +OK level deduced g-factor. Enriched 2+Ng target,Ge(Li} detectors. NUPAB A26~ 151 NUCLEAR REACTIONS 2+~g,2sSi,3aS(p,p); measured ~(E). aBe, zzC, Z60,2ONe, a+Hg,aeSi,3aS,36Ar,+oca deduced systematics of isospin mixing in elastic p-scattering. PRLTA 36 1357 NUCLEAR REACTIONS *eO(3aS,7),E=65,85 MeV; +oca(z2C,T},E=33-48 MeV; measured ¢. 3zS(zeO,pn),(zeO,2n) ,E=42 HeY; measured ¢ ratio. +aCa(12C,pn), (*aC,2n),E=33-48 MeV; measured absolute ¢. +oCa(zaC,2p),(zaC,3p), (*aC,n2p) , (zzC,~p) , {*2C,~), (zaC,p), E=38,~3,48 MeV; deduced relative ,. ZPAAD A277 117 NUCLEAR REACTIONS *zC,asSi,+oca,seNi(e,e,p} ,E=497 HeV; measured o, missing energy,recoil momentum. *zC, aaSi,+oca,SeNi deduced average proton kinetic,separation energies. NUPAB A262 ~61 A =
+ZCa
37
76Koi0:
A =
+*K
WORDS
NUCLEAR REACTIONS m~CI(p,p'),E=-15.0 ~eV; 3+S(~,p),E=18.0 MeV; measured ~. 3TC1 ded, ced levels,J,w,L. RRPQA 20 959 76Co 11 : NUCLEAR REACTIONS ~H{3sCl,pT),(3SCl,d~), (3sC!,aT),E=55 ~eV; measured recoil distance, particle y-coin. ~ , 3 ~ C I , ~ + S levels deduced T~/a. JPHGB G2 131
A =
~CI
KEY
R 75Av03:
A
3SAt
AND
ql
NUCLEAR REACTIONS +o,+2,+4,+8Ca(d,3He),+o,++Ca(d,t},E=52 MeV; measured 9(8). 39,+*,+3,+TK,39,+3Ca deduced levels,J,~,L,~,/a,S. Enriched targets. NUPAB A263 210 NUCLEAR REACTIONS 39K(t,p7 ) ,~=3.0 ~eV; 27AI[160,2pT}, (*60, npT),E=34 ~eV; measured ~7,recoil distance,~SA. +ZK,+*Ca deduced levels, T1/a,J. Natural targets. Si,Ge(Li) detectors. NUPAB A260 307 NUCLEAR REACTIONS +zCa(~,2nT),(a,n~T),(~,a'7),E=31 MeV; measured 7(t),yT(t). ++Ti level deduced T,/z,effective charge. +z,saCa levels deduced Tx/z- Pulsed beam electronic timing,enriched target,Ge(Li} detectors. NUPAB A262 189 NUCLEAR REACTIONS 3gK(t,pT ) ,E=3.0 MeV; ZTAI ('60,2p7), {zeO, nPT),E=3q ~eV; measured RT,recoil distance, ESA. +'K,+*Ca deduced levels, T,/a,J, Natural targets. Si,Ge(Li) detectors. NUPAB A260 307 NUCLEAR REACTIONS +oCa(n,T),E=-2.5-300 keV; measured ,(E,ET}; deduced valence component. +*Ca deduced resonance parameters,L,J,w,F. NUPAB A259 365
~EY
NUMBERS
AND
A = ~zCa
R 76Be13: 76Br15: 76Fo04: 76Ro06:
~aSc
D 76Wi08:
~Ca
~Ti
R 76Do05 :
NUCLEAR REACTIONS ~ o , ~ , ~ , ~ s C a ( d , ~ H e ) , * u , ~ C a ( d , t ) , E = 5 2 •" , ~ * , ~ , ~ K , 3 ~ , * 3 C a deduced levels,J,~,L,T,/z,S. Enriched 210 R 76Do05 : NUCLEAR REACTIONS ~ o , ~ , ~ , , s C a ( d , ~ H e ) , ~ o , ~ C a ( d , t ) , E = 5 2 ~",~*,~,~K,~9,~Ca deduced l e v e l s , J , ~ , L , T ~ a , S . Enriched 210 76TaO~: NUCLEAR REACTIONS ~Ca(~He,aT),E=-15 MeV; m~asured ~T(8) o 6,B(k),J. PRVCA C13 2262
~sSc
~STi
~eV; measured ~(8). targets. NUPAB A263 MeY: measured ~(8). targets. NUPAB A263 ~3Ca levels deduced
44
R 76Fo04:
NUCLEAR REACTIONS ~SAr(~,~) ,~=6-15 ~eV: ~OAr(a,T),E=5.5-11. I MeV: • STi (a,7),E=6-12 ~eV: measured ~(E,E~,8). ~ z , ~ C a , saCr deduced resonances,J,~,F,GDR. Enriched m~Ar,~S~i targets. NUPAB A263 349 D 75Gu24: RADIOACTIVITY ~ T i ; measured 7(t). ~ S c level deduced T~I z. ~ S c , ; S A s , 1 3 1 , * 3 3 C s , l * O y b , * 8 ~ R e , * 9 ~ A u : calculated B(A). IJOPA 13 334 R 76Br15: NUCLEAR REACTIONS ~zCa(a,2nT),(~,naT) ,(=,='¥),E=-31 HeY; measured ~(t),¥~(t) o • ~Ti level deduced T,/a,effective charge. ~*,*aCa levels deduced T,i a. Pulsed beam electronic timing,enriched target,Ge(Li} detectors. NUPAB A262 189 76Fr08: NUCLEAR REACTIONS ~oca(~,~),E=7.035-7.~05 MeV~ measured o(E, 8). ~ T i deduced resonances,J,w,F. ZEPYA A276 317 A =
~SCa
42
~3
A =
~Ca
WORDS
NUCLEAR REACTIONS ~ K ( a , p 7 ) , ~ = 1 ~ , 1 5 ~le'~; measured pT(8),DSA. ~zCa deduced levels,K,J,~,T,/z,Q,7-branching,6,B(k). ZEPYA A276 295 NUCLEAR REACTIONS *2Ca(~,2nT),(a,naT),(a,~'7),E=31 MeV: measured 7(t),7~(t). • ~Ti level deduced T,~a,effecfive charge. *~,~aCa levels deduced T,/a. Pulsed beam electronic timing,enriched target,Ge(Ii} detectors. NUPAB A262 189 NUCLEAR REACTIONS ~8Ar(=,T),E=6-15 ~eV: ~OAr(a,T),E=5.5-11.1 HeY; ~sTi (a,T),E=6-12 MeV: measured ¢(E,ET,~). ~ z , ~ C a , sacr deduced resonances,J,w,F,GDR. Enriched ~ A r , ~ S ~ i targets. NUPAB A263 3~9 NUCLEAR REACTIONS asSi(*~O,2p} ,E=36-42 ~eV; measured E;, I;, TT-coin, 7¥(8),T(6). • aCa deduced levels,J,w,5,~-branching,E(E2). PRYCA C13 1922 RADIOACTIVITY 3 ~ C l , ~ m - K , ~ m , ~ a S c , ~ 6 V , S o ~ n : measured T,/~. Compared with systematics. PR~CA C13 2517
A =
~K
KEY
45
76Po04: 76Pr05: R 76Ch07: D
RADIOACTIVITY 3zP,35S,4SCa: measured IB spectra. JPHGB G2 43 RADIOACTIVITY 4SCa,3SS: measured IBS. NaI(TI) spectrometer. JP~GB G2 331 NUCLEAR REACTIONS 4zCa(~,pT),E=10.5 NeV; measured e(Ep, E¥,8),~(t). 4SSc deduced levels,J,w,T,/z,6,T-branching,B(~1 ) ,B(E2). JOPQA 37 303 76To04: NUCLEAR REACTIONS 4aCa(~,pT} ,E=I0.5 MeV: measured ,(ET, Ep, 8),DSA. 4sSc deduced levels,T112,B(X) ,7-branching ratios,J,6. Enriched target. NUPAB A262 307 R 76Nh01: NUCLEAR REACTIONS 4sSc 4 7 4 9 , S O T i , s g C o ,64Ni ,6sCu(p,nT), 47Ti, s'V(p,p'7), ~eTi (d,pT),S°Ti(d,nT) ,E=3.5-5 ~eV; measured ¥(t). 4s, 4 ; , 4 g T i , ~ , ~ , s u , s l ~ , S g N i " e~Cu,6sZn levels deduced T,~ z. NUPAB A260 189 A =
46 Sc
D 76K104:
• 6v
D 76Wi08:
46
RADIOACTIVITY 46Sc,6OCo: measured 77(t). 46~i, 6ONi levels deduced T,12. NUIMA 134 525 RADIOACTIVITY 34Ci,3Sm-K,~Zm,4zS~,46V,SOMn~ measured TI/a. Compared with systematics. PRVCA C13 2517
A = 47K
R 76Do05:
47Ti
R 76Ha14:
47
NUCLEAR REACTIONS 4o,42,44,46Ca(d,3He),4o,44Ca(d,t),E=52 MeV~ measured 9(g). 39,~*,43,~TK,39,43Ca deduced leve!s,J,,,L,T,iz,S. Enriched targets. NUPAB A263 210 NUCLEAR REACTIONS 4sSc(~,d),E=25 ~eV; measured ~(8). ~TTi deduced levels,J,~. Shell model,DWBA analyses. PRVCA C13 1874
9
KEY
NUMBERS
AND
A = ~TTi
R 76To02: 76Wh01:
~V
D 76Mo12: R 76To02: 76Wh01:
R
~8Sc
D 76Ja07:
• 8v
D 76Ja07:
76 Mot0:
~V
soy
5O~n
NUCLEAR REACTIONS 48Ca(*eO,*4C),(*60,tsN},E=56 MeV; measured ,. SOTi,4gSc deduced levels. NUIMA 135 67 R 76WHO 1". NUCLEAR REACTIONS 4SSc,~,~9,SOTi,sgCo,64Ni,63Cu(p,nT),4TTi, 5*V(p,p'7), • STi(d,pT},SOTi{d,nT),E=3.5-5 MeV; measured 7(t). ~3,47,4gTi, 47,*9,ss,3*V,SgNi, 64Cu,6sZn levels deduced T,/z. NUPAB A260 1 8 9 D 76 Wi08: RADIOACTIVITY 34Ci,38m-K,4Zm,4zSc,~6V,SOMn: measured TI/ao Compared with systematics. PRVCA C13 2517
R 76Wh01:
R 76Fo04:
D 76Bo19:
51
NUCLEAR REACTIONS 4sSc,47, 49,soTi,sgco,64Ni,6scu(P,nT),~TTi,s*v(p,p' I), 48Ti (d,pT),SOTi(d,nT},E=3.5-5 MeV; measured 7{t). 4s,~7,49Ti,4T,49,s°,31V,sgNi, e~Cu,esZn levels deduced TI/z. NUPAB A260 189 52
NUCLEAR REACTIONS 3sAr{x,7),~=-6-15 MeV; 40Ar(a, 7),E=5.5-11.1 MeV; 48Ti (~,7), E=6-12 HeV; measured ,[E,ET,8} . 4a,44Ca, saCr deduced resonances#J,w,F,GDR. Enriched 3aAr,48~i targets. NUPAB A263 349 A =
S3Fe
50
R 76Er02 :
A = s~Cr
.49
NUCLEAR REACTIONS 4eca(*60,*4C) ,(.60,1SN) ,E=56 MeV; measured ,. SOTi,~gSc deduced levels. NUIMA 135 67 R 76Li10: NUCLEAR REACTIONS 49Ti(e,e),~<20~.3 MeV; measured ,{E). ~ I i deduced ~7 moment. YAFIA 23 ~98 NUCLEAR REACTIONS ~3Sc,~,~9,SOTi,s"Co,e~Ni,esCu(p, nT},~TTi, s*V(p,p'7}, 76Yh01: 48Ti(d,pT),SOTi(d,nT),E=3.5-5 MeV~ measured T(t). 4 3 , ~ , ~ T i , ~ 7 , ~ , s ° , s * V , s ~ N i , 6~Cu,~sZn levels deduced T~/a- NUPAB A260 18g NUCLEAR REACTIONS * s S c , ~ , ~ 9 , S S T i , s g c e , 64Ni,6eCu(p,n~), ~TTi, s*v(p,p'y}, R 76 WHO1: • eTi (d,pI),SOTi(d,n7),E=3.5-5 MeV; measured 7(t). .s, ~ 7 , ~ g T i , ~ T , ~ , s o , s , V S~Ni , 6*Cu,esZn levels deduced T./a. N~PAB A260 189
A = 3,V
48
R 76Er02:
A = SOTi
47 Continued
NUCLEAR REACTIONS ~8Ca[.80,~80'),8=50 MeV; measured ~(8) to levels in *80,~8Ca: deduced optical potentials. PYLBB 61B 213 RADIOACTIVITY ~ev,~eSc; measured ET,I~,TT-coin; deduced log ft. 48Ti deduced levels JINCA 38 1099 RADIOACTIVITY 48V,~eSc; measured ET,IT,TT-coin ; deduced log ft. ~STi deduced levels JI~CA 38 1099
A = ~9Sc
WORDS
NUCLEAR REACTIONS 3tp(,gY,2npT} ,[~gF,n2pT),E=~7 MeV; measured recoil distance. • TV,47Ti levels deduced T,/z,B(MI } ,B(E2). Natural target,Ge(Li) detector. PRVCA C13 1889 NUCLEAR REACTIONS ~ s S c , ~ , ~ , S O T i , S ~ C o , 6 4 N i , e s C u ( p , n ~ } , ~ T T i , s ~ ¥ ( p , p . 7), • 8Ti (d,pT),soTi(d,ny),E=3.5-5 ~leV; measured ~(t). 4s, 4 ~ , ~ T i , 4 ~ , ~ , s o , s 1 ¥ , 5 , N i " 64cu,eszn levels deduced T~/a. NUPAB A260 189 RADIOACTIVITY 3zP,~TV,6~,6~Ga; measured E~. N~IMA 133 ~57 NUCLEAR REACTIONS 3.p(.gF,2np7 ) ,(ZgF,n2pT},E=~7 MeV; measured recoil distance. • ~ V , ~ T i levels deduced T~/a,B(N1),B(E2 ) . Natural target,Ge(Li) detector. PRVCA C13 1889 NUCLEAR REACTIONS ~ S S c , ~ , ~ , S O T i , S g C o , 64Ni,esCu(p,nT),4~li,s*V{p,p.~), • STi(d,pT},SUTi(d,nT),E=3.5-5 MeV; measured 7 ( t ) . ~ s , ~ 7 , ~ T i , ~ 7 , ~ , s u , s * V , s ~ N i , 64Cu,6sZn levels deduced T./~. NUPAB A260 189
A =
~8Ca
KEY
53
RADIOACTIVITY S3Fe,T3r73m-Se, 84, s~m-R~,ssYWg*~o; analysis. ZPAAD A277 203
10
measured Tz/a. Activation
KEY
NUHBERS
~ND
A =
S~Mn
R 76BeI~:
ssCo
NUCLEAR REACTIONS socr(*zC,2p~¥),E=26-58 ~leV; S~Fe(a,2pT),s~Fe(~,a},E=12-24 ~eV; measured ,(E,ET,8) ,TT-coin. S~Fe(=,2pT),E=20,24 MeV; measured DSA. S6Fe deduced levels,J,w,T1/z,B(k ) . PRLTA 36 1536 76Da12: NUCLEAR REACTIONS S6Fe,aOSTl(n,n'~): measured ~(8). S6Fe, aOST1 levels deduced J,~. NUI~A 134 291 76EI09: NUCLEAR REACTIONS ss~n(p,7),E=0.6-2.5 Me¥; measured ¢(E,ET},TT(8). SSMn(p,p},E=1.638-1.718 MeV; measured ,(E}. S6Fe deduced IAS, Fo ANPYA 33 82
R 76Br19:
sTco
D 75Sm06: 76Av02: 76Bo16: R 76~a24:
eTNi
R 76Hu06:
R 76Mo17:
R 76Ma24= sgNi
D 76Be35: 76Sz02: R 76Hu06 : 76Pi05: 76Wh01:
58
NUCLEAR REACTIONS Izc,~sSi, 4OCa,SsNi(e,e,p),E=497 ~eV: measured ~,missing energy,recoil momentum. *2C,~eSi,~oca,sSNi deduced average proton kinetic, separation energies. NUPAB A262 461 A =
J 760p01 :
57
NUCLEAR REACTIONS STFe(7,7} ; measured Mossbauer effect in PdAgFe alloy series. STFe deduced hyperfine fields, isomer shifts. PYLAA 56A ~77 NUCLEAR REACTIONS sTFe(7,7): measured Mossbauer effect. STFe deduced isomer shift, quadrupole splittimg. P~RBA B13 ~78~ RADIOACTIVITY STCo,*34Cs; measured ~ count rate. MTRGA 11 67 RADIOACTIVITY sTCo,~oTBi~ measured ce-spectrum. NUIMA 133 579 RADIOACTIVITY sT,6uco,13TCs,*SaEu,lssSm,*gSAu; measured E 7. ZENAA 31a 387 NUCLEAR REACTIONS 6o,6~,64Ni(p,a),E=13-16 MeV; measured ¢(E,E=,8). ST,Sg,6tCo deduced levels,J,level densities. Enriched targets. PBVCA C13 2269 NUCLEAR REACTIONS ssNi(polarized d ,t) ,E=16. 5 MeV~ 6o,62Ni(polarized d,t),E=15 MeV: measured analyzing power Ay(8} . sT,sg, 6*Ni levels deduced J. Enriched targets. NUPAB A263 445 A =
sgCo
56
R 76Be26:
76Sa13:
SSNi
55
NUCLEAR REACTIONS S S ~ n ( p , p ' ) , ~ 5 . 2 - 6 ~eV; measured ,(E, Ep',O). SS~n levels deduced J,w. DWBA,Hauser-Eeshbach. YAFIA 22 21 76Ku05: NUCLEAR REACTIONS SS~n(~,a'7),E=5-8 ~eV; measured Coulomb excitation,7(O). SSMn levels deduced J,B(E2),B(MI),7-branching. PHSTB 13 213 R 76Ad04: NUCLEAR REACTIONS s~Fe(sHe,dT) ,E=8.1 MeV; measured E¥(8},Doppler shift, ssCo levels deduced T,~s. Enriched target. NUPAB A263 173 76 Ne04 : NUCLEAR REACTION S~Fe(~He,dT),E=12 ~eV; measured ET(8),Doppler-shift attenuation, sSCo deduced levels,J,~,T,/a. Enriched target,Ge{Li) detector. NUPAB A261 ~27
A = STFe
54
R 75An~2:
A = seFe
NORES
NUCLEAR REACTIONS s4Cr(p,n),~=2.72-4.65 ~eV: measured Doppler shift,,(E~,8~). s ~ I n deduced levels,Tt/~,6,~-branching. Enriched target. NUPAB A261 238
A =
ssMn
KEY
59
NUCLEAR MONENTS sgY,SgCo,aTAI~ measured hyperfine fields in pseudobinary compounds. NNR method. PLRHA B13 4698 NUCLEAR REACTIONS ~o,62,64Ni(p,a| ,E=13-16 MeV; measured ,(E, Ea, 8). sT,sg,6tCo deduced levels,J, level densities. Enriched targets. PRVCA C13 2269 RADIOACTIVITY sgNi; measured 7-continuum,ET(max); deduced Q. Ge(Li)-detector. IANFA 40 773 RADIOACTIVITY sgNi: measured IBS: analyzed data. ATKOA 18 51 NUCLEAR REACTIONS ssNi(polarized d,t) ,E=16.5 MeV; 6°,62Ni(polarized d,t} ,E=15 NeV: measured analyzing power Ay(8) . sT,sg,6tNi levels deduced J. Enriched targets. NUPAB A263 445 NUCLEAR REACTIONS SOCr(taC,n2pT),E=26-58 MeV: S6Fe(~,n~),E=10,15,22.5 MeV; measured o(E,ET,0 ) , 77-coin. SgNi deduced levels, J, mixing ratios. Enriched socr target. NUPAB A264 132 NUCLEAR REACTIONS ~sSc,~;,~9,SOTi,S,Co,64Ni,6sCu(p,nT),47Ti, sIV (p,p, 7), 48Ti(d,pT),SOTi(d,nT),E=3.5-5 MeY: measured 7(t}. "s,'T, 4"Ti,dT,49,so,stV,SgNi, 64Cu,6sZn levels deduced T,/a. NUPAB A260 189
11
KEY NUMBERS AND KEY WORES
A =
6OCo
D 76Bo16: 76KI0~:
eoNi
R 75Iv0~:
RADIOACTIVITY s~,6oco,~mTCs,~SaEu,~s3Sm, xgeAu; measured E~. ZENAA 31a 387 RADIOACTIVITY ~6sc,e.co; measured TT(t). ~eIi, eoNi levels deduced Tx/a. NUI~A 13~ 525 NUCLEAR REACTIONS s*v(¢zC,2np),E=32-~2 ~eV; measured ET,~7, T{t). 6oNi deduced l e v e l s , J , ~ , T , / z , T - m u l t i p o l a r i t y , B ( E 2 ) . IANFA 39 1695 A =
ezCo
R 76Ma2~:
e*Ni
R 76Hu06:
6~Cu
R 76Be30:
R 75Kri O:
=
6~Zn
e~Ga
eszn 65Ga
6~Cu resonances
6~
NUCLEAR REACTIONS 4 s S c , 4 T , ~ 9 , S O T i , S g C o , 6 4 N i , e s c u ( p , n T ) , 4 1 T i , S * V ( p , p ' ? ) , 48Ti (d,pT),SOTi(d,nT),E=3.5-5 MeV; measured ?(t). ~s, 4T,~gTi,~7,~9,so,s*V,SgNi, e4Cu,esZn levels deduced T,/a. NUPAB A260 189 R 75 HsO~ : NUCLEAR REACTIONS 6sCu(p,T ) ,~=1750-2950 keY; measured G(E,ET),TT-coin. e~zn deduced r e s o n a n c e s , l e v e l s , J , w , T - b r a n c h i n g . CJOPA 13 152 76Br12: NUCLEAR R E A C T I O N S 6aNi(a,2ny),E=22-~O ~eV; measured ,(E, EI,~),IT-coi~. e~Fe (*zC, 2pT) ,E=36-~8 ~eV; measured ¢ (E,E~) . s s ~ (.zC, 2np~), E=35 MeV; measured recoil distance. 6~Zn deduced levels,J,w,T,/a. JPSLB 37 L 63 76Chi I: NUCLEAR REACTIONS ~ N i ( ~ , n T ) , E = 6 . ~ - 8 . 0 NeV; measured ,(E, E7),DSA. 6~Zn deduced leve!s,T¢/a,B(k). PRVCA C13 2237 76Ne06: NUCLEAR REACTIONS 6~,6~,~s,~ozn(e,e') ,E=~0-112 MeV; measured ,(E, Ee',@). e~,e6,6e,~oZn deduced B(E2),B(E3). Application of anharmonic vibrator model. Enriched targets. NUPAB A263 2~9 D 76Mo12: RADIOACTIVITY ~ z P , ~ V , 6 ~ , 6 e G a ; measured ~ . NUIMA 133 ~57 65
NUCLEAR REACTIONS 64Ni(p,n),~ near threshold: measured neutron spectra; deduced basic limitations on the near threshold technique. 6sCu deduced resonance. PRVCA C13 2083 NUCLEAR REACTIONS 4 s S c , ~ T , 4 9 , S O T i , s g C o , e 4 N i , 6 s c u ( p , n T ) , ~ T T i , S ' V ( p , p ' ? ) , R 76 NhOI4STi (d,pT),SOTi(d,nT),E=3.5-5 MeV; measured 7(t). ~s,'T, 49Ti,~T,49,s°,sxv,SgNi, e4cu,eszn levels deduced T,/2. NUPAB A260 189 R 75We2~ : NUCLEAR REACTIONS 6~Zn(p,y) ,~=1.8-2.1 MeV; measured ,(E,ET) ; deduced Q. 6SGa deduced mass excess,levels. PHFEA 10 167 R 76Le09:
A = 66Z n
R
6eGa
D 76Mo12:
76Ne06:
D 71S~18:
66
NUCLEAR REACTIONS e4,66,es, ToZn(a,e') ,E=-40-112 MeV; measured ,(E, Ee',8) . e4,6e,es,7oZn deduced B(E2),B(E3}. Application of anharmonic vibrator model. Enriched targets. NUPAB A263 249 RADIOACTIVITY 3zP,4TV,64,e6Ga; measured E~. NUIMA 133 457
A
eTGa
¢(E, Ey).
R 76Wh01 :
A = 6sCu
63
NUCLEAR REACTIONS 6ZNi(p,~),Ep<5 MeV; measured deduced T-hranching,B(M1). IANFA 39 1268 A =
6~Cu
61
NUCLEAR REACTIONS 6o,~z,e*Ni(p,~),E=13-16 ~sV; measured -(E,E=,O). s~,s~,6"Co deduced levels,J,level densities. Enriche~ targets. PRVCA C13 2269 NUCLEAR REACTIONS ssNi(Folarized d,t) ,E=16.5 MeV; 6 0 6ZNi(polarized d,t) ,E=15 ~eV; measured analyzing power Ay(O). s~,s~,etNi levels deduced J. Enriched targets. N~PAB A263 8~5 NUCLEAR REACTIONS eONi(p,7),~=3690-3790 keY; measured E~,I~,absolute ~ yields. etcu deduced r e s o n a n c e s , F ~ , C o u l o m b energy differences. T. N~PAB A263 ~77
A
63Cu
60
=
67
RADIOACTIVITY eTGa; measured Ty(@) , E y , I T , ~ - c o i n , T(t). levels,J,w,Ti/a,k,6,Q. AAFBA No 364
12
eTZn deduced
KEY N ~ B E R S
AND KEY WORDS
A =
~8Zn
R 76 Ne06 :
NUCLEAR REACTIONS 6~,~6,6e,~aZn(e,e') ,E=40-112 ~eV: measured ¢(E, Ee',8) . e~,~6,68,~oZn deduced R(E2),B(ES). A p p l i c a t i o n of anharmonic vibrator model. Enriched targets. NUPAB A263 249
A
~gGe
D 76Ho09:
69Se
D 76Ha22:
R 76Ne06 :
;SGe
R 76Mo15:
7ZAs
=
D 76He06:
R 76Ha26:
=
TSAs 7~Se
74Se
74Br
72
73
R 76Yo04:
NUCLEAR REACTIONS 7 o , T z , 7 4 , 7 6 G e ( p o l a r i z e d d,p),E=12 ~eV; measured polarization parameter Ay(Ed,Ep,e),~(Ed,Ep,8 ) . 7*,73, Ts, ZZGe levels deduced L,J,w,S. E n r i c h e d target. NUPAB A263 q19 R 76Sc 13: NUCLEAR REACTIONS 7z,T~,76Ge(3He,d) ,E=23 MeV: measured ~(Ed, 8) ; deduced Q. 73,Ts,77As d e d u c e d levels,L(p),cam. Enriched targets. NUPAB A263 193 D 76Bo19: R A D I O A C T I V I T Y S S F e , 7 3 , z s m - S e , e 4 , e 4 m - R b , e e y , g * H o ; measured Ti/a. Activation analysis. ZPAAD A277 203 R 76Be15: NUCLEAR REACTIONS 7~Ge(~,3nT},E=30-55 MeV: measured ~(E,E~,8),~7-coin. rSSe deduced l e v e l s , J , w , k , y - b r a n c h i n g . E n r i c h e d G~ target. Ge (ii} detector. NUPAB A261 317
A
74As
71
RADIOACTIVITY 7ZAs,ZZAs; measured IT(e,H,t),N~R in Fe; deduced g,I. NUPAB A259 378 NUCLEAR REACTIONS ZOGe(~,npT),TaGe(=,3np7) ,E=30-55 MeV; measured ET, IT,,(E,ET,8,t) ,77-coin. 7~As deduced levels,J,T,T,/2. Enriched Ge targets. Ge(Li) detector. NUPAB A260 109 NUCLEAR REACTIONS ~zSe,ZS~,ts6,tse,t6oGd,z76, ; T e , tSOHf(¢,~,7), E=11-17 ~eV; measured Coulomb excitation. SaNi(t60,2pT),E=qq-46 ~eV; measured ET,7-delay. 7zSe levels deduced Tz/z,B(k ) . *s~,zs6,'sa,*eoGd, *Ts, 'T8, ZeoHf levels deduced B(X). IANFA 40 18
A = 73Se
70
NUCLEAR REACTIONS 7 o , z ~ , ~ , 7 6 G e ( p o l a r i z e d d,p),E=12 MeV; measured polarization parameter Ay (Ed,Ep,e) ,~(Ed,Ep,8). 7, 7 ~ , T s , 7 7 G e levels deduced L,J,r,S. Enriched target. NUPAB A263 419 D 76He06 : RADIOACTIVITY ~*As,~zAs: measured IT(e,H,t),N~R in Fe; deduced p,I. NUPAB A259 378
R 76Ma20: 7z Se
=
R 76Yo04:
A
~aAs
69
NUCLEAR REACTIONS 6 * , 6 6 , ~ e , 7 o z n ( e , e ' ) , E = q O - 1 1 2 ~ e V ; measured ~(E, Ee',e). e~,~e,ee,~.Zn deduced B(~2),B(E3). A p p l i c a t i o n of anharmonic vibrator model. Enriched targets. NUPAR A263 249 NUCLEAR REACTIONS 6eZn(=,2nT),E=2~-~O HeV; measured ,(E,ET, 8),7~-coin, 7(t) . zoGe deduced levels,J,w,T,/m,7-bra~ching. PRVCA C13 2182
A • z Ge
=
RADIOACTIVITY egGe; measured 77(e),E7,I7. 6~Ga levels deduced J,w. ZEPYA A276 341 RADIOACTIVITY ~gSe: measured p X-ray(t) ,pT(t) ,7 X-ray(t),Tx/a,E~,Q. ~ A s levels deduced TIj 2 limits. PRLTA 37 133 A
*OZn
68
=
R 76Lai O:
74
NUCLEAR R E A C T I O N S 74Ge(p,n7) ,E=3.5-5.C MeV: measured ,(E,ET),77-coin, l(ce),Tce(t),nce(t) . 74As deduced levels, J,,,ICC, T,/a,k, 7-bra,ching. PRAMC 6 209 R 76 Hal0: NUCLEAR REACTIONS 64Ni(160,2naT) ,E=42-81 SeV. measured 6(E,ET, e),DSA,particle 7-coin,7-ray multiplicities. *4me deduced l~wels, J, Tz/a. 6~Ni(*60,qnT),(160,2n~) ,(z60, qn=7) rE=q2-81 ~eV; measured ,(E,E¥}. Enriched target. NUPAR A259 496 D 76Ro08: R A D I O A C T I V I T Y 74BE [from SaNi(X60,2p} , ~ 4 6 ~eV]; measured TT(t}. 74Se level deduced Tx/2,B(E2). NUPAE A261 439
13
KEY
NUMBERS
AND
A =
7SGe
~SAs 7sSe
D 76Ba15:
D 7~Gu30 : R 76Yo0~:
As
R 76Sc13:
77S e
R 76Ze03:
TTRb
D 75Li13:
T7
TSKr
R 74Sa32=
TeRb
D 74Sa32:
s~y
SSZr
81
RADIOACTIVITY 8, Bb~ measured ET,IT,TT-coin,E~,~7-coin; deduced log ft,Q. s. Kr deduced levels,J,r. PHFEA 10 133 RADIOACTIVITY 81Rb: measured E7,17. IJARA 27 189 76Sc18: NUCLEAR REACTIONS ZgBr(a,2n7} ,E=22.5 MeV; measured ET,IT, 7(O},77-coin. R76Fr10: 8sZn (*60,2npT),E=52 MeV: measured E7,I7(8). 8SRb deduced levels, J,w. Enriched targets. PRVCA C13 2247
D 75Va2~:
8~
R 76An05:
NUCLEAR REACTIONS S4Rb(n,p} ,~=th: measured Ep, Ip; deduced Q. SSRb deduced proton branching, a4Kr deduced levels,Fp. PYLBB 6 1 B 234 D 76Bo19: RADIOACTIVITY S3Fe,73,73m-Se,e~,s4m-Rb, esY,g*Mo; measured T,/z. Activation analysis. ZPAAD A277 203 D 76Ia01: RADIOACTIVITY e4m-Y [from s4Sr(p,n} ]: measured T,/z,ET, IT: deduced log ft. ssm-Zr [from sgY(p,5n) ]~ measured ET,IT,T,I a. 8~Sr, eSZr, ssy deduced levels. PRVCA C13 2075 A =
8 SRb
78
NUCLEAR REACTIONS 68Zn(szC,2n7) ,E=32-48 MeV; measured ¢(E, ET, 8}. 64Ni(*60,2nT), E=42 fleV: measured TT-coin. 18Kr deduced levels,J,w. JPAGB A7 1156 RADIOACTIVITY 7 ORb: measured E7,IT,77-coin,7(t},77(~}. 7OKr deduced levels,J,T,Ts/z. JPAGB A7 1156
A =
8#Rb
77
RADIOACTIVITY TTGe; measured 7T(e). 77As levels deduced 6, J,w. T3,TS,TTAs systematics. RBFSA ~ ~7 NUCLEAR REACTIONS ~o,Ta,7~,~6Ge(polarized d,p),E=12 MeV; measured polarization parameter Ay (Ed,Ep,~) ,,(Ed,Ep,8). ~l,~3,Ts,7~Ge levels deduced L,J,w,S. Enriched target. NUPAB ~263 ~19 NUCLEAR REACTIONS Ta,7~,*6Ge(3He,d),E=23 N~V; measured ,(Ed, O); deduced Q. ?3,Ts,~TAs deduced levels,L(p},CaS. Enriched targets. NUPAB A263 193 NUCLEAR REACTIONS 7~Ge(a,nT),~=I~ MeY; measured ET, I~,T7-coin, T(~). 7*Se deduced Isvels,J,~,6. Enriched target. Ge(Li) detectors. ZEPYA A276 371 RADIOACTIVITY ~TRb: measured ET,IT,TT-coin,T,/a, E~; deduced log ft, Q. TTKr deduced levels,J,w. Mass-separated sources. IANFA 39 501
A =
S~Kr
76
RADIOACTIVITY TEAS: measured 7(8) from polarized nuclei; deduced multipolarities. ~eSe levels deduced J,w,6. PRVCA C13 1991
A =
e*Rb
75
NUCLEAR REACTIONS ~ o , ~ a , ~ , T ~ G e ( p o l a r i z e ~ d,p),E=12 MeV: measured polarization parameter Ay (Ed,Ep,O),~(Ed,Ep,8} . ~ , ~ 3 , T s , ~ G e levels deduced L,J,w,S. Enriched target. NUPAB A263 419 R 76Sc13: NUCLEAR REACTIONS ~a,~,T~Ge(3He,d) ,E=23 H~V~ measured ,(Ed, 8); deduced Q. • ~,~s,T~As deduced levels,L(p},CzS. Enriched targets. NUPAB A263 193 R 76Sa07: NUCLEAR REACTIONS ~mGe(a,nT} ,E=8.1,10.0, 13.0 ~eV~ measured e(ET, 8),TT-coin. • sSe deduced levels,J,w. Enriched target. NUPAB A261 93
A = ~7Ge
WORDS
R 76Yo0~:
A =
~6As
KEY
J 76Ti01:
85
NUCLEAR 80MENTS SSRb, 12TI; measured quadrupole hfs in RbI; deduced guadrupole coupling constants eqQ. ZENAA 31a 236 R 76An05: NUCLEAR REACTIONS S4Rb(n,p} ,~=th: measured Ep,Ip; deduced Q. SSRb deduced proton branching. S4Kr deduced levels,rp. PYLBB 61B 234 ~ D 76Ia01: RADIOACTIVITY e4m-Y [from e4Sr(p,n} ]: measured T,/z,ET, IT; deduced log ft. esm-Zr [ from sgy(p,5n) ]; measured ET,IT,T,12. S4Sr, OSZr, SSY deduced levels. PRVCA C13 2075
14
KEY NUMBERS
A~D KEY
A = STBr 87Kr
D 76Ra20:
87y
R 76Ho11:
R 76Je02:
eeRb 8sy
8,Rb 8~y
RADIOACTIVITY 8 8 , . ~ , ~ o , . . K r , a S , 8 . , , o , . . R ~ [ from zssU(n,F) ]; measured IT, IB; deduced ground-state 8-branching. Ge(Li) ,~w plastic scintillation detectors. PRVCA C13 2~92 D 76Wo05: RADIOACTIVITY 88,89,9o,91Kr, s8,s~,9o,~tRb [from z3su(n,F} ]; measured I~,IB; deduced ground-state B-branching. Ge(Li) , ~ plastic scintillation detectors. PRVCA C13 2~92 D 76Bo19: RADIOACTIVITY S~Fe,~3,~mm-Se,8*,s~m-Rb,8sy,g*~o; measured T,/~. Activation analysis. ZPAAD A277 203 R 76Ho11: NUCLEAR REACTIONS 86,8~,SSSr(d,n),E=12 ~eV; measured ¢(En, O). 8~,sa,sgy levels deduced S. Enriched targets. PRVCA C13 2212
9ORb 9osr 9oZr
9o~o
89
RADIOACTIVITY a8,~9,~o ,tKr, ee,ag,,o,~tRb [ from a~su(n,F) ]; measured 17, IB; deduced ground-state B-branching. Ge(Li),qw plastic scintillation detectors. PRVCA C13 2~92 D 76 9o05 : RADIOACTIVITY ss,89,9o,9'KE,88,a~,go,~*R~ [ from z3su(n,F)]; measured IT, IB; deduced ground-state B-branching. Ge(Li} ,q~ plastic scintillation detectors. PRVCA C13 2q92 J 760p01: NUCLEAR MOMENTS s~Y,S~Cc, Z*Rl; measured hyperfine fields in pseudobinary componnds. NMR method. R L R B A B13 ~698 R 76Ho~ 1: NUCLEAR REACTIONS 8~,87,88Sr(d,n} ,E=12 BeY; measured ,(En, O). 87 8s,ag¥ levels deduced S. Enriched targets. PRVCA C13 2212 D 76Wo05:
A = 9OKr
88
D 769005:
A = 89Kr
87
RADIOACTIVITY a~Br; measured delayed-neutron spectrum. NUI~A 13~ 559 NUCLEAR REACTIONS Kr,a~Kr(n,7),E=th; measured E7,17. 8~Kr deduced transitions. NUIMA 135 21 NUCLEAR REACTIONS 86,87,88Sr(d,n} ,E=12 BeY; measured .(En,8}. 87,8s,e~y levels deduced S. Enriched targets. PRVCA C13 2212 A =
esKr
WORDS
90
D 76 Yo05:
RADIOACTIVITY es,eg,gQ 9tKr ss 8~,9o,gtR~ [ from z3sU (n,F) ]; measured IT, IB; deduced ground-st ate B-branching. Ge(Li) ,4, plastic scintillation detectors. PRVCA C13 2492 D 76Wo05: RADIOACTIVITY 88,89,9o 9,Kr,Se,sg,9o,g,Rb [ from z3SU(n,F) ]; measured IT, IB; deduced ground-state B-branching. Ge(Li),4w ~lastic scintillation detectors. PRVCA C13 2~92 R 76F110: NUCLEAR REACTIONS 88Sr(t,p} ,E=20 MeV; measured ,(Ep, 8). 9osr deduced !eve!s,L,J,w. Systematics. Enri=he~ target. ~UPAB A26~ 253 R 7~u22: NUCLEAR REACTIONS 9o,9*,gzZr(a,=),(a,~'),E=3~.% MeV; measured ~(8); deduced optical potentials. 9o,9*,gzZr levels deduced B(L). BICRA 52 152 76Fu03: NUCLEAR REACTIONS , o Z r ( e , e ' ) , ~ 1 8 3 BeV; measured electron scattering. 9ore deduced monopole,multipole strengths,EO resonance. PYLBB 62B 146 76Go10: NUCLEAR REACTIONS 9o,9*,gz,94,96Zr(d,t},E=16 MeV; measured ,(Et, e}; deduced Q. 9°,9*,gz,94,96Zr deduced neutron separation energies. ZENAA 31a 393 R 76Ka08: NUCLEAR REACTIONS ,2~o(p,d) , (p,t) ,Ep=28.0 M~V; measured ,(Ed,%),¢(Et,8} absolute. 9*,9OMo deduced levels,L,J,~,S. DWBA analysis. Enriched 9z~o target. NUPAB A260 1/41 A =
91Kr
D 76 9o05:
91Rb
D 76Wo05:
9tSr
R 76Ea21:
91ZE
R 74Ku22:
91
RADIOACTIVITY 8s ,89,9o,91Kr,88 89,9o 91R h [ from z3sU (n,F) ]; measured I7, IB; deduced ground-state ~-braoching. Ge(Li),4, plastic scintillation detectors. PRVCA C13 2492 RADIOACTIVITY 88,89,9o,91Kr, eS,sg,9o,,tRb [from z3SU(n,F) ]; measured I7, IB; deduced ground-state 8-branching. Ge(Li),4w ~lastic scintillation detectors. PRVCA C13 2~92 NUCLEAR REACTIONS z38U(~-,F),E: = 0 SeV; measured fission yields for ~tSr,93Y,99Mo,lt*Ag,**3Ag,**sCd,l¢3Ce; deduced muon induced fission probability. HPACA 49 187 NUCLEAR REACTIONS 9o,gt,g~Zr(e,~),(a,a'),E=3q.~ MeV; measured ,(8); deduced optical potentials. 9o,g;,gzZr levels deduced ~(L). BICRA 52 152
15
KEY
NOMBERS
AND
A = 91ZE
9*Nb 91Mo
93Mo
9*MO
NUCLEAR REACTIONS 9o,9*,gazr(~,a),(a,~'),E=3~.~ MeV; measured ,(8); deduced optical potentials. 9o,9*,gzZr levels deduced ~(L). BICHA 52 152 76 Gol O: NUCLEAR REACTIONS 9o,9*,9~,9~,9~Zr(d,t),E=16 NeV; measured ,(Et, 8); deduced Q. • o,9*,9~,9~,96Zr deduced neutron separation energies. ZENAA 31a 393
9sTc
NUCLEAR REACTIONS z38U(~-,F},E - 0 ~eV; measured fission yields for 9sSr,93Y,99~o,*lIAg,it3Ag, t*SCd,*~3Ce~ deduced muon induced fission probability. HPACA 49 187 RADIOACTIVITY 9 ~ o , g T R u , l S I N d , 16SDy~ measured TT(t}. ''IPd,14SEu; measured D 76Be3~: 77(t},TT(8)- 93Mo,97Tc,ts*Pm,*6SHo level deduced T,/a. Z**Ag,*~TSm level deduced T,/z,J,~. IANFA ~0 85 NUCLEAR REACTIONS 93Nb(p,nT),E=3.5 HeY; measured I¥(8},DSA. 9 ~ o levels R 76DUOS: deduced T,/a. JPSLB 37 L ~03 NUCLEAR REACTIONS 93Nb(p,nT},E=3.7,~.~ MeV: measured ,(E~,e},~T-coin,DBLS. 76Ru03: 9~Mo deduced levels,J,w,6,B(X),Tl/z,T-hranching. Ge(Li}-NaI (TI) anti-Compton spectrometer. Ge(Li) detectors. PRVCA C13 2166
NUCLEAR REACTIONS 9o,9",gz,94,96Zr(d,t),E=16 ~eV; measured ,(Et, 8); deduced Q. 9o,9*,gz,94,96Zr deduced neutron separation energies. ZENAA 31a 393 NUCLEAR REACTIONS 94So(n,n'T),E=1.5-4.0 MeV~ measured ET,,(E;E7,8). 94Mo R 76Su04: deduced levels,J,u,branching ratios. Enriched, natural targets. NUPAB A26% 179
=
97RU
95
NUCLEAR REACTIONS 9s,gTMo(=,a'7),E=8.8 Mere, ('zC, lzC'T},E=33 ~'leV;', measured Conlomb excitationeTT-coin,E T,IT. 9s,gT M" levels deduced Tl/z,T-branching,B(E2) ,6. IANFA 39 1637 RADIOACTIVITY 9STc; measured IT,I(X} ; deduced I(EC},I~. IANFA 40 75 D 76 Se08:
R 75An17:
R 76GOI0:
96
NUCLEAR REACTIONS 9a,gt,ga,94,96Zr(d,t),E=16 MeV: measured 9(Et, e}; deduced Q. 9o,9*,ga,94,96Zr deduced neutron separation energies. ZENAA 31a 393 A =
97MO
94
R 76GOI0:
A =
96Zr
93
R 76Ba21:
A
9SMo
92
R 7~Ku22 :
A =
9*Zr
91 Continue~
NUCLEAR REACTIONS 8sSr(~Li,3n) , (6Li,2np) ,E=3~ MeV; measured 7~-coin,-(ET, 8,t} . 9,Nb,91Zr deduced levels,J,~,T,/a,6,B(E2) ,T-branching,effective charges. Natural target,Ge(Li),Si(Li) detectors. PRVCA C13 IgO0 76Go ~ O: NUCLEAR REACTIONS 9o,gt,ga,9~,96Zr(d,t},E=16 NeV; measured ,(Et,8}; deduced Q. 9 o , 9 * , ~ z , ~ , " ~ Z r deduced neutron separation energies. ZENAA 3~a 393 NUCLEAR REACTIONS seSr(~Li,3n),(dLi,2np) ,E=3~ ~eV; measured 7~-coia,,(ET, 8,t). R 76Br1~: 9tNb, 9*Zr deduced levels,J,~,Tl/~,6,B(E2} ,T-branching,effective charges. Natural target,Ge(Li},Si(Li} detectors. PRVCA C13 IgO0 RADTOACTIVITY S3Fe,;m,;3m-Se,S~,s~m-Rb ~ssY,9,go; measured T~/a. Activation D 76Bo19: analysis. ZPAAD A277 2 0 3 NUCLEAR REACTIONS 9z~o(p,d) , (p,t) ,Ep=28. 0 ~eV; measured ,(Ed,@},,(Et,8} R 76 Ka08absolute. 91,9o~o deduced levels,L,J,~,S. DWBA analysis. Enriched vZNo target. NUPAB A260 I~I
A =
9~y
WORES
R 76Br1~:
A = 9aZE
KEY
97
NUCLEAR REACTIONS 9S,gTMO(~,='~),E=8.8 ~eV; (*aC,*aC'7),E=33 ~eV; measured Coulomb excitation,77-coin,ET,!~. 9s,97Mo levels deduced T,/~,7-branching,B(E2} ,6. IANFA 39 1637 RADIOACTIVITY 93Mo,gTRu,*S*Nd,16sDy; measured ~7(t}. IzIPd,*4SEu; measured D 76Be34: TT(t),TT(e}. 93Mo,97Tc,*S*Pm,*dSHo level deduced T,la. ***Ag,*+TSm level deduced T,/z,J,w. IANFA ~0 85
R 75An17:
16
KEY NUMBERS AND KEY WORDS
A =
98Zr
e8Nb
~STc
RADIOACTIVITY 96Zr,~a,~em-Nb; measured ET,17, T,/z,E~,77-coin, Tce-,~7-coin; deduced Q,log ft. 9~m-Nb levels deduced J,~. 9sMo deduced levels, J,~. ZEPYA A276 393 RADIOACTIVITY 96Zr,pS,pSm-Nb ; measured ET, I7,Tt/a,E~,77-coin, Tce-,@~-coin; D 76He!0: deduced Q,log ft. 9sm-Nb levels deduced J,w. ~ M o deduced levels, J,~. ZEPYA A276 393 RADIOACTIVITY ~am-Nb [from "SMo(n,p)]; measured E~,IT,TT-coin,T,/z; deduced 76Si0~: log ft. ~S~o deduced levels,J,w,7-branching. JPHGB G2 93 NUCLEAR REACTIONS 9aMo(p,n),(p,nT),E=2.~-~.2 ~eV, 9rMo(~He, d),E=19.0-23.0 ~eV; R 76Fi0~: measured ~n(e) ,Ed(e) ,E7,¢(£) ,nT-,77-coin; deduced Q for {p,n). ~ T c deduced levels,L,J,~. Enriched targets. NUPAB A261 q13
D 76Hei0=
A =
99Mo
98
R 76Ba21:
NUCLEAR REACTIONS z3sU(p-,F),E
99
~ 0 MeV;
measured fission yields for
91Sr,93Ye99Mo,tttAg,t*3Ag, ttsCd,*~3Ce: deduced muon induced fission 99Ru
R 7~Gi12:
probability. HPACA 49 187 NUCLEAR REACTIONS 99Ru(7,7'} ; measured Mossbauer spectrum. 6,quadrupole splitting. CHPLB 29 379
A
toopd
D 75Kr15:
=
"PRu level deduced
100
RADIOACTIVITY t°°Pd; measured Te-,77(e,H,t), tOORh level deduced dependence of quadrupole coupling constant. HYIND I 295
temperature
A = 102 10ZRh
D 75Sc09:
RADIOACTIVITY ,oz,LoZm-Rh [ from Rh(p,d) , Ru(d, xn) ]; measured 7(8, T) polarized nuclei: ~educed p,HuJ. He refrigerator,Ge(Li) detectors. NUPAB A2~3 309
A =
tOSRu
D 76Gu09:
RADIOACTIVITY 347
*osRu:
measured 77(8).
A =
*OSRh to6Cd
D 75Ge06: 76LuO~: R 76Es01:
R 76Le13:
*°SRh levels deduced J,w,k, 6. ZEPYA A276
106
RADIOACTIVITY *O6Rh; measured ET,absolute I7. IANFA 39 555 RADIOACTIVITY taTSn,*O6Rh,13s,*36I; measured E~; deduced Q. NUIMA 13~ 173 NUCLEAR REACTIONS 106,1,o,**z,1,4,116Cd(~,~,T),E=8.5 MeV; to6,*to,*Iz,lt~,**6Cd(t60,160'7) ,E=44 MeV; measured Coulomb excitation. *o6,**o,**z,**4,*t6Cd levels deduced B(E2). PYLBB 61B 242
A
lorCd
105
=
107
NUCLEAR REACTIONS *osPd(a,2n),E=27 BeY; deduced g-factor,p. IANFA qO 52
measured IT(e,H,t).
*orcd level
A = 108 zospd
R 76Ha21:
tOSAg
J 76Wi03:
NUCLEAR REACTIONS 'oa,*sOPd(160,160' ) ,E=28.8-46 MeV; measured L60,7(8). toe,**opd levels ~educed Q,sign of matrix product. Enriched targets. NUPAB A264 341 NUCLEAR MOMENTS *os,*tOAg [from tor,*OSAg(polarized n,T) ]; measured ~[8, H,t); deduced p,Q. tto,,,IIn calculated Q. NUPAE A261 261
A
tOp!n
R 76Sm0~:
=
109
NUCLEAR REACTIONS '*z,st6,1'a,'z4sn(p,a} ,E=22 MeV; measured ¢(e). ,op,t*m,**s,tZtIn deduced levels,J,~,o~servEd weak-coupling multiplet,semi-microscopic D~BA analysis,semi-conductor detectors~enriched targets. NUPAB A261 385 17
KEY NUMBERS AND KEY
WORDS
A = 110 ,t o p d t,OAg **oCd
R 76Ha21:
NUCLEAR REA£TIONS "Oe,l*opd(t60,'60'),E=28.8-46 MeV; measured ,60'~(0). *os,1*oPd levels deduced Q,sign of matrix product. Enriched targets. NUPAB A26~ 341 J 76Wi03: NUCLEAR MOHENTS *os,**OAg [from *or,*OgAg(polarized n,7)]; measured ~(8, H,t); deduced p,Q. **o,***In calculated Q. NUPAE A261 261 R 76De23: NUCLEAR REACTIONS *'o,ltaCd(n,n'T) ,E=fast(reactor) ; measured ET, I~(8}. **o,tlaCd deduced leve!s,T-branching,6. IANFA ~0 157 76Es01: NUCLEAR REACTIONS 106,,|u,,,a,l,~,,16Cd(a,a,T),E=8.5 ~eV; *o6,**u,**a,**~,[~6Cd(*60,160'T} ,E=4~ ~eV; measured Coulomb excitation. lO6,11o,11z,**4,1*6Cd levels deduced B(E2). PYLBB 61B 2~2
A =
t**pd
l**Ag
***Cd ~ISn
111
D 76Be34:
RADIOACTIVITY 93Mo,erRu,tS*Nd, 16SDy; measured 7T(t). 111pd,*~SE~; measured ~ TT(t),¥T(O). 93Ho,97Tc,tsIPm, 16SHo level deduced T,/a. **tAg,*47Sm level deduced ~i/a,J,r. IANFA 40 85 D 76Ra09: RADIOACTIVITY *t*Ag; measured ~7(e,H,t). ***Cd level deduced guadrupole interaction in non-cubic metals. PLRBA B13 2835 R 76Ba21: NUCLEAR REACTIONS a3sU(p-,F),E = 0 MeV; measured fission yields for ~*Sr,"3Y,e"~o,***Ag,*t~Ag,ttsCd,t~3Ce; deduced muon induced fission probability. HPACA ~9 187 J 76Ri07: NUCLEAR MOMENTS ~ I m - C d ; measure~ ~T(B,H,t); deduced magnetic fields in NiO,CoO,~nO. PLRBA B13 2138 R 75Ab09: NUCLEAR REACTIONS tlO,**a,**~,116Cd(p,p),(~,n),E=6-8 MeV; measured ,(E). It1,1t3,,tSetl~Sn deduced analog resonances,FO, Fp. IANFA 39 1688
A = 112
ItaCd
R 76De23: 76Es01:
NUCLEAR R~ACTIONS 1,o,,x2Cd(n,n,7) ,E=fast(reactor) ; measured ET, IT (8). 1'o,*'2Cd deduced levels,7-branching,6. IANFA 40 157 NUCLEAR REACTIONS 1 0 6 , t * o , * * a , * t ~ , t 1 6 C d ( ~ , a , T ) , E = 8 . 5 NeV; Io6,1,o,, la,lt4,1,6Cd (t60,160,7) ,E=44 MeV; measured Coulomb excitation. to6,t*o,*IZ,l*4,t16Cd levels deduced B(E2}. PYLBB 61B 242 A = 113
**3Ag
R 76Ba21:
**3In
R 76Sm0~:
113Sn
R 75Ab09:
NUCLEAR REACTIONS a38U(p-,F),E = 0 MeV; measured fission yields for 9*Sr,g3Y,99Mo,t*IAg,t*3Ag,1*sCd,*~3Ce; deduced muon induced fission probability. RPACA 49 187 NUCLEAR REACTIONS l*a,*t6,*Is,*~4Sn(p,a),E=22 ~eV; measured ¢(e). ,o,,,,3,t,s,ta,!n deduced levels,J,w,observed weak-coupling multiple%,semi-microscopic DWBA analysis, semi-conductor detectors, enriched targets. NUPAB A261 385 NUCLEAR REACTIONS 11o,1,~,t,4,116Cd(p,p) ,(p,n),E=6-8 MeV; measured ,(E). *1*,*13,1*s,ttrSn deduced analog resonances,FO,Fp. IANFA 39 1688 A = 114
**'Ca
R 76Es01:
*o6,1to,,la,*14,**6Cd(a,~,7),E=8.5 H e Y ; wE=~4 MeV; measured Coulomb excitation. *o6,*'O,l*Z,**~,**6Cd levels deduced B(E2). PYLBB 61B 242 NUCLEAR REACTIONS 114Cd(e,e'},E=68-112 MeV; measured ¢(E,8}. [*4Cd levels deduced form-factors,B(k),Q,~. Anharmonic model. JPHGB G2 185 NUCLEAR REACTIONS 114,116,1tSSn(p,p,),E=6.40-6.92 HeP; measured I(ce). t*4,**6Sn levels deduced B(EO)/B(E2}. PYLBB 62B ~02 NUCLEAR REAC"fIONS
lo6,11o,112w114,l16Cd(160,l&O|'y)
V6Giov: 114Sn
R 76Ba32:
A =
t*sCd
D 76Ra16: R 76Ba2 I:
115
RADIOACTIVITY *lSm'Cd; measured E~,~-shaps; deduced Q. JPHGB G2 243 NUCLEAR REAC"fIONS a3oU(p-,F),E = 0 MeV; measured fission yields for 9*SE,93Y, mgMo,I*IAg,**3Ag, I*SCd,*43Ce; deduced muon induced fission probability. HPACA 49 187
18
KEY NUMBERS
AND KEY
WORES
A = 115 C o n t i n u e d ~Sln
R 76Sm0~:
xxSSn
R 75Ab09:
NUCLEAR REACTIONS 1*~,116,118,1a~Sn(p,a} ,E=22 ~eV; measured ~(8). *o9,113,,1$,1a1I~ deduced levels,Jer,o~serv~d weak-coupling multip! ~t, serei- micresc epic D ~BA anal ysis, serei-con ductor det ect ors, enriched targets. NUPAB A261 385 NUCLEAR REACTIONS 1 * o , * * a , 1 1 ~ , 1 1 ~ C d ( p , p ) , ( p , n ) , E = 6 - 8 MeV; measured ,(E}. ***,*Im,*Is,**;Sn deduced analog resonances,~O,rp. IANFA 39 1688 A = 116
1*~Cd
R 76Es01:
1~6In
D 7~Ch59: R 76~i06:
R 76Ba32:
NUCLEAR REACTIONS l u ~ , * * u , * * a , 1 1 ~ , * 1 ~ C d ( a , ~ T ) , E = 8 - 5 MeV; ,o~,**u,**z,11,,xx6Cd(1~0,160,7) , E = ~ MeV; measured coulomb excitation. ~ o ~ , ~ 1 ~ , 1 , a , 1 , ~ , * . ~ C d levels deduced B(E2). PYLBB 61B 2~2 R A D I O A C T I V I T Y *1~m-In; measured ET,IT,7~-coin. 11~Sn deduced levels. KPSJA 7 22 NUCLEAR REACTIONS 1*SIn(n,7),E=th; measured Ey, IT, E ( c e ) , I ( c e ) , ~ - c o i n **sIn(d,p},E=12 MeV; measured nothing; analyzed ,(e). **~In deduced leve!s,j,~,ICC,7-~ultipclarity,configurations. Ge(Li) detector, bent crystal s p e c t r o m e t e r , m a g n e t i c s p e c t r o m e t e r , n a t u r a l , e ~ r i c h e d targets. NUPAB A262 19 NUCLEAR REACTIONS * 1 ~ , * 1 6 , 1 * s S n ( p , p ' ) , E = 6 . 4 0 - 6 . 9 2 MeV; measured I (ce). *1~,**~Sn levels deduced E(EO)/B(E2). PYLBB {2B ~02 A=
**vCd
D 75Sei O:
~Sn
R 75Ab09:
RADIOACTIVITY 11~,11~m-Cd; measured E~,i~; deduced log ft. l*~In levels deduced J,~. IANFA 39 625 NUCLEAR REACTIONS **u,1*a,**~,11~Cd(p,p} ,(p,n),E=6-8 ~eV; measured ¢(E}. 111,11~,**s,l*~Sn deduced analog resonances,PO, Fp. IANFA 39 1688
A
**sSb
D 76Ba32:
117
RADIOACTIVITY 62B ~02
1*eSb;
118
=
measured
l(ce).
xleSn level deduced
B(EO)/B(E2).
PYLBB
A = 119 ~In
D 76Fo02 :
I~9Sn 1~9Xe
D 76Ab01: R 76Co16:
*~Cs
R 76Co16:
~*gBa
R 76Co16:
RADIOACTIVITY 119,12,,z~3,,zsin [ f r o m 2~s U (n,F),z38U (~,F) ]; measured ET,!7, E(ce),I(ce) ,T7-coin,@7[t) ; deduced ICC,log ft. 1,9 Ia1 ,,a3 lasSn deduced !evels,J,w,T,/a,B(X ) ,k,hindrance factors. ZEPYA A276 381 R A D I O A C T I V I T Y *19m-Sn; measured 7ce(t). x19Sn level deduced T,/a. JPHGB G2 51 NUCLEAR REACTIONS lu6,1os,**oCd(160,xnypza7 ),E=52.5-66. 0 ~eV; measured ,(E,ET},77-,particle ~-coin. 119,*aUXe,11g,*auCs, 119,1aUBa deduced transitions. *2*,la~,Iz3,1~Ba,lau,*~m,*a~Ba d e d u c e d levels,K,J,r. ZEPYA A276 ~03 NUCLEAR REACTIONS l u ~ , l u s , 1 * o c d ( 1 ~ O , x n y p z ~ 7 } , E = 5 2 . 5 - 6 6 . 0 ~eV; measured ,(E,ET) ,7¥-,particle 7-coin. 119 ,1ZOXe ,119,1zoCs , ,19, laUBa deduced transitions. I z * , * ~ a , l a ~ , * ~ B a , 1 ~ o , * z ~ , ~ a ~ B a d e d u c e d levels,K,J,w. ZEPYA A276 ~03 NUCLEAR REACTIONS ~ o 6 , ' o s , 1 ' o c d ( * 6 0 , x n y p z = 7 } , E = 5 2 . 5 - 6 6 . 0 ~eV; measured ,(E,E?) ,7~-,particle 7 - c o i n . *1",*aoXe,11",*aoCs , ,,9,,aOBa deduced transitions. *a*,1~,*a~,1~Ba,lao,*a~,*Z~Ba deduced lev~is,K,J,~. ZEPYA A276 ~03 A = 120
~aUTe
R 76Ma21:
1~uXe
R 76Co16:
*ZOOs
R 76Co16:
IZOBa
R 76Co16:
NUCLEAR REACTIONS Iz2,1z4,1a6,1ZSTe(p,t),E=-=1.9 MeV; measured ,(Et,@). Izo,*aa,*a4,xa6,1ZeTe deduced levels,J,w,L. Enriched targets. NUPAB A261 223 NUCLEAR REACTIONS 1o6,1oe,*1oCd(*60,xnypz~T},E=-52.5-66.0 MeV; measured ~ ( E , E ? ) , 7 7 - , p a r t i c l e 7-coin. 119,1aSXe,11g,*aOCs, 1*9,*aOBa deduced transitions. la1,1a~,1:'~e124Ba,laO,laz,*a4Ba deduced levels,K,J,w. ZEPYA A276 403 NUCLEAR REACTIONS * o 6 , 1 0 s , 1 1 O c d ( * 6 0 , x n y p z a T ) , E = 5 2 . 5 - 6 6 . 0 MeV; measured 9(E,ET},TT-,p~rticle y-coin. 119,*aOXe,*'g,*aOCse**9,1aOBa deduced transitions. *a*,*aa,la3,12~Ba,lao,la2,*a4Ba deduced levels,K,J,r. ZEPYA A276 403 NUCLEAR REACTIONS * 0 6 , 1 u s , * * o C d ( l e O , x n y p z a ~ } , E = 5 2 . 5 - 6 6 . 0 ~eV; measured e(E,ET),77-,particle 7-coin. **9,,aOXe,,19 , laOCs , 119, laOBa deduced transitions. * 2 1 , * a a , l a 3 , * Z 4 B a , l m o , * z a , * Z 4 B a deduced !eve!s,K,J,w. ZEPYA A276 403
19
KEY NOMBEES AND KEY WORDS
A =
*2tI n
D 76Fo02:
R
tztSb
J R
ZZtBa
121
R
RADIOACTIVITY **9,,Zt,lZ3,1ZSln [from 23s U(n,F),zzeU(5,F) ]; measured E7,1T, E(ce),I(ce) ,77-coin,~ 7(t) ; deduced ICC,log ft. ,19,,zz,za3,1asSn deduced leve!s,J,~,Tt/a,B(k) ,k,hindrance factors. ZEPYA A276 381 76Sm0~ : NUCLEAR REACTIONS tzz,zte,xxs,za~Sn(p,5),E=22 MeV; measured ¢(8). tsg,t13,11s,zzt!n deduced levels,J,r,ohserved weak-coupling multip!et,semi-microscopic DWBA analysis,semi-conductor detectors, enriched targets. NUPAB A261 385 76La09: NUCLEAR MOMENTS tzzSb; measured ~ossbauer effect; deduced ~,hyperfine field in Pdz~nSb. PRVCA C13 2589 75An16: NUCLEAR REACTIONS ,at,tz3Sb,la~,ZZSTe(laC, tzC,7),E=37 HeY; (a,~'7),E=12 ~e~; measured Coulomb excitation, DSA,7(@ | . X 2 1 , l z 3 S b ,*z3,zasTe levels deduced Tx/z,B (E2),5. IANFA 39 1631 76Co16: NUCLEAR REACTIONS ,s~,,os,zzoCd(,~O,xnypz=7),E=52.5_66.0 ~eV; measured -(E,ET),77-,particle 7-coin. 119,zzoXe,t19, taocs , z19, ,mOBs deduced transitions. tzx,lzz,tz~,IZ~Ba,tZO,laz, XZ~Ba deduced ievels,K,J,w. ZEPYA A276 ~03 A = 122
Z2ZTe
R 76Bo12: 76Ma21:
IZaBa
R 76Co16:
NUCLEAR REACTIONS lZZ,t3OTe(5,a') ,E=1C-11 M~V, tzz, t3OTe (160,t60,),E=30-54 BeY; measured ~(E(t60} ,E(Z60')) ,~(Es,Es,) . z2z,t3OTe deduced Q,B(E2}. Enriched targets. NUPAB A261 498 NUCLEAR REACTIONS tzz,*24,tas,taSTe(p,t),E=51.9 MeV; measured ,(Et,e). *2°,tza,ta4,zz6,tZeTe deduced l e v e l s , J , w , L Enriched targets. NUPAB A261 223 NUCLEAR REACTIONS *o6,*us,*zOCd(t60,xnypz57),E=-52.5-66.0 HeY; measured (E,ET),77-,particle 7-coin. t*9,tZOXe,Ztg, taOCs , 119,,aOBa deduced transitions. *zl,tz2,ta~,*Z4Ba,tZo,tzz,*Z4Ba deduced levels,K,J,~. ZEPYA A276 ~03 A = 123
tZ3in
*Z3Sb la3Te *23Be
D 76Fo02=
RADIOACTIVITY **9,zzt,ta3 ,aS!n [from 23sU(n,F),Z3aU(=,F) ]; measured ~7,17, E(ce),I(ce) ,77-coin,~T(t); deduced ICC,log ft. ztg,tzz,tz3,tzsSn deduced levels,J,w,Tz/z,B (X) ,k,hindrance factors. ZEPYA A276 381 R 75An16: NUCLEAR REACTIONS 12,,,23Sb ,*z3,tzsTe(Izc,*zC,7),E=37 BeY; (¢,5'.7),E=12 MeV; measured Coulomb excitation,DSA,T(8} . tz1,zz3Sb ,tax,tasTe levels deduced TI/z,B (E2),6. IANFA 39 1631 R 75An16: NUCLEAR REACTIONS tzt,tZ3Sb,ta3 12STe(tac, 12 C,7) ,E=37 MeV; (~,5'7),E =12 MeV; measured Coulomb excitation,DSA,7(8) . 12t,zz3Sb ,*z3, taSTe levels deduced Tm/z,B (E2),5. IANFA 39 1631 D 76Be11: RADIOACTIVITY *z3,tZS,lZT,tZgBa [ from Ce02 (p,xnyp),chemically,isotopically separated]; measured ET,IT,I (ce) ,77-coin,~7-coin,~7(t),Tce(t). ,aTBa deduced ICC,log ft,Q~, zzTCs deduced levels,J,w,k, za3,tzs, lzT, IZgCs deduced B(E2). Ge(Li),Si(Li),NaI(Tl),plastic detectors. NUPAB A260 269 R 76Co16: NUCLEAR REACTIONS toe,tea,tzocd(x60,xnypz57),E=52.5-66. 0 MeV; measured 6(E, ET),YT-,particle 7-coin. m19,tZoXe,Zt%zaocs, zzg, ZZOBa deduced transitions. tZl,taa,tz3,tZ4Ba,lZo,taz, ta4Ba deduced lev~is,K,J,,. ZEPYA A276 403 A = 12q
ta*Te
76~a21:
ta4Ba
76Co16:
NUCLEAR REACTIONS zzz,lz4,xa6, ZZeTe(p,t),E=.=1.9 MeV; measured ~{Et, O). zao,,za,lz4,tz6,tZeTe deduced levels,J,r,L. Enriched targets. NUPAB A261 223 NUCLEKR REACTIONS tu6,tos,zloCd(zeO,xnypzsT),~52.5-66.0 ~eV; measured 6{E, E7),77-,particle 7-coin. zzg,*zoXe,Zzg, tzoCs, ZZg,lZOBa deduced transitions. Iat,taa,ta3,ta~Ba,Zao,lza, tZ4Ba deduced lev~ls,K,J,r. ZEPYA A276 403 A = 125
zaSIn
76Fo02:
taSTe
75An16:
tzsI
76Ho10:
RADIOACTIVITY 119,1at,zz3,1zsIn [from 2350{n,F),R3sU(5,F) ]:, measured ET,17, E(ce},I(ce} ,77-coin,~7(t); deduced ~CC,log ft. ttgeza1,*z3,zzsSn deduced !eve!s,J,w,Tt/a,B(X) ,k,hindrance factors. ZEPYA A276 381 NUCLEAR REACTIONS Iaz,tz3Sb,ZZ3,ZZSTe(zaC, zzc'7),E=37 HeY; {a, 5'T),E=12 HeY; measured Coulomb excitation, DSA,7(g}. tZZ,lZ3Sb, ta3, taSTe levels deduced Tz/z,B (E2),6. IANFA 39 1631 RADIOACTIVITY tzsI; measured decay; deduced decay pathways. NUISA 133 293
20
KEY
NUMBERS
AND K E Y
WORDS
A = 125 Continued ~aSBa
D 76Be11:
RADIOACTIVITY ,z3,,as,,aT,lagBa [ from CeO a (p, xnyp) ,chemically,isotopically separated]; measured E~,I¥,I(ce) , ~ - c o i n , ~ - c o i n , ~ 7 ( t ) , T c e ( t ) . *arBa deduced ICC,log ft,Q~. 'aTCs deduced levels,J,w,k. *a3,'as, laT,*agCs deduced B(E2). Ge(Li) ,Si (Li) ,NaI (TI) , plastic detectors. N~PAB A260 269 A=
*a6Te
R 76~a21 :
~a~Ba
R 76F!11:
126
NUCLEAR REACTIONS ~az,'a~,l~,1~STe(p,t),E=51.9 MeV; measured ~(Et,8). ~ao,'az,'z~,'z6,*aOTe deduced levels,J,w,L. Enriched targets. NUPAB A261 223 NUCLEAR REACTIONS ,,~Cd(,60,~nT},E=83 MeV; 'zosn(*aC,4nT),E=67 MeV; 'a~Sn ('aC,4nT) ,E=60 HeY; measured ET,IT,~(@) ,~7-coin, linear polarization. 'a6,*~8,'~aBa deduced levels,K,J,~. Compared with two-quasiparticle + rotor predictions. Ge(Li) deteCtors,enriched target. NUPAB A264 291 A = 127
~a?Sn ~71 taTBa
D 76Lu04: J 76Ti01:
RADIOACTIVITY ,ZTSn,~O6Rh,*3s,,~6I; measured E~; deduced Q. NUIMA 13~ 173 NUCLEAR ~O~ENTS SSRb, lzTI; measured guadrupcle hfs in RbI; deduced quadrupole coupling constants eqQ. ZENAA 31a 236 D 76Bei I : RADIOACTIVITY ~a~,~as,la~,lagBa [from CeO a (p,xnyp),chemically,isotopically separated]; measured ET,Iy,I(ce) ,;T-coin,~T-coin,~T(t),~ce (t}. ,aTBa deduced ICC,!og ft,QS. ~ZTCs deduced levels,J,r,k. *z~,*as,*aT,~agCs deduced B(E2). Ge(Li},Si(Li),NaI(Tl) ,plastic detectors. NUPAB A260 269 A =
~asSn ~ZeTe *aeCs ~asBa
128
D 76Nu01:
R~DIOACTIVITY lasSn; measured ET,I 7,E~,~7- ,TY-,~(x-ray)-coin,T,J a; deduced log ft,Q,ICC, lassb deduced levels,J,r. PRVCA C12 2017 R 76Ma21: NUCLEAR REACTIONS 'az,*24,,a6,1aSTe(p,t),E=.CI.9 MeV; measured ,(~t,8). 'a°,'aa,'a4,1a6,'aSTe deduced !evels,J,r,l. Enriched targets. NUPAB A261 223 D 76DROP: RADIOACTIVITY ,moCs [from *mSXe(p,n)]; measured ET, IT,7~-coin, Ta/a; deduced log ft. *a"Xe deduced levels. ZPAAD A277 167 R 76F111: NUCLEAR REACTIONS ,14Cd(*60,4n~),E=83 MeV; leOSn(laC,4nT),E=67 MeV; 'a4Sn (*aC,4n7) ,E=60 MeV: measured E7,I7,~ (~} ,77-coin, linear polarization. 'a6,*ae,*3ZBa deduced levels,K,J,w. Compared with two-quasiparticle + rotor predictions. Ge(Li) detectors,enriched target. NUPKB A264 291 A = 129
Ia91 ,agKe lagBa
D 76Ma31: J 76Sc17:
RADIOACTIVITY tagI; measured ~7-coin. IJARA 27 187 NUCLEAR MOMENTS *agm-Xe: measured hyperfine interaction in Fe; deduced g. NMR technique. PRLTA 37 302 D 76Bei I: RADIOACTIVITY la3,,as,lzT,,agBa [from CeO a(p,xnyp),chemically,isOtopically separated]; measured ET,I¥,I(ce) , 7 7 - c o i n , ~ - c o i n , ~ ( t ) , T c e ( t ) . 'aTBa deduced ICC,!og ft,Q~. IaTCs deduced leve!s,J,,,k, ta3,'aS, laT,*agCs deduced B(E2). Ge(Li),Si (Li)eNaI (TI) ,plastic detectors. HUPAB A260 269 A = 130
~OTe
R 76Bo12:
NUCLEAR measured targets.
REACTIONS *az,Z3OTe(u,m,) ,E=10-11 M~V, Zaa, Z3OTe (160,160,),E=30-54 ,(E('60),E(*60,)),¢(~,E~ ,) . *2a,*3oTe deduced Q,B(E2). Enriched NOPAB A261 498
MeV;
A = 132 132Ba
J
76Hoi 3:
NUCLEAR MOMENTS *3a,133Ba; measured hfs,optical isotope shift. L3~Ba deduced I,v. PYEBH 62B 390 R 76F!I I : NUCLEAR REACTIONS 1*4Cd(160,4n~),E=83 HeY; IzoSn(,zC,4nT),E=67 MeV; *a4Sn (*aC,4n7) ,E=60 MeV; measured E~,I7,7 (8),7T-coin, linear polarization. *z6,,zs,132Ba deduced levels,K,J,r. Compared with two-quasiparticle + rotor predictions. Ge(Li) detectors,enriched target. NUPAB A264 291
21
KEY
NUMBERS
AND
KEY
WORDS
A = 133 ,33Cs 133Ba 133La 133Ce
J 76Be21:
NUCLEAR ~OMENTS '33Cs; measured fractional [ressure shifts of ground-state hyperfine frequency in various buffer gases. PLRAA A13 1052 J 76Hol 3: NUCLEAR ~O~ENTS *3z,Z33Ba; measured hfs,optical isotope shift. *33Ba d e d u c e d I,p. PYEB~ 62B 390 D 76Hei I: RADIOACTIVITY ~33La; measured ET,IT,TT-coin; deduced log ft, ICC. Z33Ba deduced levels,J,w. PRVCA C13 2501 D 76He09: RADIOACTIVITY .33Ce; measured ET,IT,I(ce); deduced log ft. *33La deduced !eve!s,J,~,ICC,X. Enriched targets,mass separation,Ge(Li),Si(Li) detectors. PRVCA C13 2063
A =
134Te 13~Cs
13~Ce
J 76Wo03: D 75Sm06: R 76Hu03:
134
NUCLEAR ~OHENTS *3+m-Te; measured g. PRL~A .~6 1072 RADIOACTIVITY sTco,t3+Cs; measured ~ count rate. STRGA 11 67 NUCLEAR REACTIONS ~azSn(*eO,~nT),E=76 MeY; measured recoil distance yrast levels deduced T,/a,feeding times. PRL~A 36 1291
DSA. [3+Ce
A = 135 t3si 135Xe 13SBa
D 76FeOa: 76LuO~: D 76FeO~: J 76Ha28:
RADIOACTIVITY '3ml,*3sm-xe; measured T,~ branching. INUCA 12 243 RADIOACTIVITY *zrSn,*OeRh, 13s,*~6I; m e a s u r e d E~; deduced Q. NUI~A 13~ 173 RADIOACTIVITY *3sI,*3sm-xe; measured 7,~ branching. INUCA 12 2~3 NUCLEAR MOMENTS z3s,*3rBa; measured hfs; d~duced Q. Level-crossing. ZPAAD A277 107
136
A= 1 3e I
D 76LuO~:
RADIOACTIVITY
*zrSn,*O6Rh,*3s,*36I;
measured E~; deduced
Q. NUIMA
13% 173
A = 137 ,37Cs Z37Ba
D 76Bo16: J 76Ma28:
137Ce
D 75Pi07:
RADIOACTIVITY sT,6oCo,13TCs,ZSZEu,Zs3Sm,*9OAu; measured E~. ZENAA 31a 387 NUCLEAR M O M E N T S 13s,*3TBa; measured hfs; deduced Q. Level-crossing. ZPAAD A277 I07 R A D I O A C T I V I T Y z3rCe; measured ICC for 10-keV transition in *37La. RRPQA 20 863
A = 139 * 39Ce
D 75Vy02:
76Be18: 76Ha11: R 76Be10: z39pr
D 75Vy02:
139N d
D 75Vy02:
RADIOACTIVITY *39Nd,z39Pr,*39Ce [from Gd(660-KeV p,X)]; measured E~,!~,ET, IT,TT,77(t) ,TI/2; deduced Q. 139ce deduced levels, Tz/z,J,w, 7-multipolarity,ICC. z39pr deduced transitions. Mass-separator, ion-exchange chemistry. IANFA 39 1671 R A D I O A C T I V I T Y *39Ce; measured L(X-ray} T(8); deduced no anisotropy. ZEPYA A277 9 RADIOACTIVITY ,39Ce; measured ICC of 165.8-keV t r a n s i t i o n in *39La. ZEPYA A276 303 NUCLEAR REACTIONS 1+oCe,14+Sm,142Nd(3He,~) ,E=-25 Me¥; *40Ce,*44Sm,l+aNd(d,t) ,E=26.21 MeY; measured ,(e). *39Cee'43Sm,Z4*Nd deduced leve!s,L,J,r,S. JOPQA 37 311 R A D I O A C T I V I T Y *39Nd,*3gPrez3"Ce [from Gd(660-MeV p,X} ]; measured E~,I~,ET,IT,T~,TT(t) ,T,,w2; deduced Q. z39Ce deduced levels, T,/a,J,w, T-multipolarity,ICC. *39Pr deduced transitions. Mass-separator, i o n - e x c h a n g e chemistry. IANFA 39 1671 R A D I O A C T I V I T Y tmgNde*39Pr,*sgCe [from Gd(660-SeV p,X| ]; measured E~,I~,ET,IT,TT,TT(t),T,/a; deduced Q. *sgCe deduced levels, T,la,J,w, 7-multipolarity,ICC. *39pr deduced transitions. Mass-separator, i o n - e x c h a n g e chemistry. IANFA 39 1671
A ,+o B a
D 76Li06:
RADIOACTIVITY
=
140
*+OBa,*+oLa,*sZEu;
22
measured
IT. JINCA
38 1409
KEY
NgMEEES
AND
KEY
WORDS
A = 1~0 Continued t¢OLa
t%OCe
RADIOACTIVITY *~OLa; measured 77(e) ,linear polarization correlation, t¢oce levels deduced J,w,6. Ge(Li) detectors. PRVCA C13 2461 RADIOACTIVITY t~OBa,*¢OLa,tSZEu; measured I7. JINCA 38 1~09 76Li06: NUCLEAR REACTIONS t~oCe(T,n} ,E=9.1 Me~; measured ¢(En,e). t*oCe deduced MI,EI R 76La08: strength functions. PRVCA C13 2257
D 76Ga12:
A =
~**Xe 1¢ICs i*tNd
RADIOACTIVITY *¢tXe,t¢'Cs; measured ET,l~,TT-coin,77(t),T,/z; deduced ICC, log ft. *¢*Cs,t*tBa deduced levels,k,6. PRYCA C13 1996 D 760t03: RADIOACTIVITY "~tXe,t~tCs; measured ET,IT, TT-coin,77(t},T,/z; deduced ICC,lo 9 ft. t~tCs,t¢IBa deduced levels,k,6. PRYCA C13 1996 R 76Be I0: NUCLEAR REACTIONS l¢oCe,t¢~Sm,t*ZNd(mHe,~),~--25 MeV; t*oCe,t¢¢Sm,t~ZNd(d,t} ,E=26.21 MeV; measure4 ¢(~). t39Ce,*¢~Sm, t ~ N d deduced leve!s,L,J,w,S. JOPQA 37 311 767h05: NUCLEAR REACTIONS t*mNd(tmC,t¢C) ,(t3C,tzC}, (13C, tZB},E=67.5 MeV; measured • (@). t~t,t¢3Nd,1~3Pm levels deduced L,J,,,S. DWBA analysis. Enriched target. PRVCA C13 1936 D 760t03:
A =
t¢3Ce
R
1¢3Nd
R 76Th05~
~*3pm
R 76Th05:
t~3sm
R 76Bei0:
t¢3Eu
R 76Wi09:
X~3Gd
D 76Wi09:
76Ba21~
1 4¢pm
NUCLEAR REACTION t¢zCe(=,2nT),E=28-~O MeV; measured ¢(E=,ET),¢(ET,8},TTcoin,aT-delay, t¢4Nd deduced levels,J,v,6-mixing, Tl/a upper limit. Enriched target. Ge(Li} detectors. NUPAB A259 399 76Ra21: NUCLEAR REACTIONS t43Nd(n,T),E=thvrmal; measured ET, I7, I(ce},T¥-coin. t*4Nd deduced levels,J,w,7-multipolarity,ICC. IANFA 40 68 R 76Ma27: NUCLEAR REACTIONS t43Nd(~He,d),E=24 MeV; measured ¢(Ed, 8}. "*¢Pm levels deduced L,~,J; compared with shell model. Enriched target. NUPAB A263 12
D 76Be3~:
J 76Ku03:
D 76Si08:
1~6
NUCLEAR ~OMENTS t46Nd,tsoSm; measured temperature dependence field in polarized Fe,Ni. PLRBA B13 3697 A =
t ¢r N d
lq5
RADIOACTIVITY 93~o,grRu,tS*Nd, t6sDy: measured T7(t). g*tPd,t4SEu; measured 77(t),TT(e). 93Mo,97Tc,*stPm,*6sHo level deduced T,/a. t*tAg,*~rSm level deduced T,/z,J,T. IANFA qO 85
A =
t¢6Nd
1~,4
R 76De11:
A =
t 4SEu
143
NUCLEAR REACTIONS z38~(p--,F),E = 0 ~eV; measured fission yields for 91Sr,93Y,99Mo,lttAget'3Ag, ttSCd, t*3Ce; deduced muon induced fission probability. HPACA 49 187 NUCLEAR REACTIONS t*zNd(t3C,*¢C) ,(*3C,*aC}, (*3C, tZB},E=67.5 MeV; measured 6{8). t4t,t¢3Nd,l*3Pm levels deduced L,J,~,S. DWBA analysis. Enriched target. PRVCA C13 1936 NUCLEAR REACTIONS t4ZNd(t3C,**C},(*3C,*ZC), ('3C, tZB},E=67.5 MeV; measured ¢(e). t¢t,t43Nd,l¢3pm levels deduced L,J,w,S. DWBA analysis. Enriched target. PRVCA C13 1936 NUCLEAR REACTIONS t*oCe,l~*Sm, t~ZNd(3He,~} ,E=25 ~eV; t*oCe,t*~Sm,*~ZNd(d,t| ,E=26.21 MeV; measured ,(8). " ~ C e , t * ~ S m , * ~ t N d deduced levels,L,J,w,S. JOPQA 37 311 NUCLEAR REACTIONS l~¢Sm(¢,~npT) ,E=75-120 MeV; measured E7,17,77-coin,7(O) ,7(t) . tcm~u deduced levels,J,r,Tt/z,7-branching. ZPAAD A277 129 RADIOACTIVITY t ~ m - G d ; measured ET,IT,TT-coin,T,/a; deduced log ft, ICC. **3Eu deduced levels,J,~,k. ZPAAD A277 129
A =
*4eNd
141
of hyperfine
1~7
~AD!OACTIVT_TY *¢TNd [from *46Nd(n,7) ]; measured ~T(t),T~(e,H,t}- *¢TPm levels deduced T,/z,6,g. Natural targets,p!astic scintillators, NaI(Tl) detectors. JPHGB G2 159 23
KEY
NUMBERS
AND
KEY
WORDS
A = 1,q.7 Continued t~zSm
R 76Ga10:
NUCLEAR REACTIONS '6T,t~9Sm(*60,t60'7),E=38-~8 MeV; ~ z , ~ g S m (a,~'7),E=6-11 MeV; measured ~(E,Ey,8} ,160'7(0} ,77-coin. ,~z,169Sm deduced levels,J,,,6,B(E2), 7-brauching. Ge(Li} detectors,magnetic spectrometer. NUPAB A262 137
A =
t~sSm
R 76Ba12:
NUCLEAR REACTIONS * ~ T , t 6 ~ S m ( n , = ) , E = O - q O 0 eV; measured = - y i e l d s . r e s o n a n c e s deduced F = , v ( e f f ) . E n r i c h e d t a r g e t s . NU~AB A261 35 A =
t~Nd
R 76PiO~:
1~9Sm
R 76Co1~: 76Ga10:
t~gEu
D 76Gai0:
t~9Gd
D 75A!1%:
t~gDy
R 76St08:
1~8 x~s,lsoSm
lq,9
NUCLEAR REACTION 1~SNd{n,7),~=th; measured Ey, IT,Ty-coin. *~gNd deduced levels,J,w,neutron binding energy. Enriched target. Bent crystal, Ge(Li) spectrometers. NUPAB A26~ I NUCLEAR REACTIONS I~9Sm(7,7) ; measured ~ossbauer effect. "~gSm deduced isomer shift. JI~CA 38 1139 NUCLEAR REACTIONS I~T,t~gSm(160,'60'7),E=38-~8 MeV; 1~z,169Sm(~,~'7},E=6-11 ~eV; measured ¢(E,Ey,8) ,160,7(e) ,77-coin. *~T,*~gsm deduced levels,J,,,6, B(E2}, 7-branching. Ge(Li) detectors,magnetic spectrometer. NUPAB ~2&2 137 RADIOACTIVITY t*gEu: measured Ey,IY,77-coin. *~gSm deduced levels, T-branching. Ge(Li} detectors. NUPAB A262 RADIOACTIVITY * ~ G d ; measured Ey, Iy,I(ce),yce-csin,7X-ray-coin; deduced ICC,log ft. 1~gEu deduced levels,J,w,k. IANFA 39 ~68 NUCLEAR REACTIONS *SZGd(~,7n),E=106 MeV; measured 77(8,t). * ~ D y deduced leve!,J,w,T,/z. PYLBB 62B ~05 A = 150
so Sm
NUCLEAR ~OMENTS 1~6Nd,tsosm; measured temperature dependence of hyperfi~e field in polarized Fe, Ni. PLRBA B13 3657 RADIOACTIVITY *susm,tZ~Hf,*gzIr; measured double internal conversioa, ICC. D 75Pr06: YAFIA 21 11~5 NUCLEAR REACTIONS 1 ~ , t ~ g S m ( n , ~ ) , E = O - ~ 0 0 eV; measured ~-yields. 1~s,lsUSm R 76Ba12: resonances deduced F~,~(eff}. Enriched targets. NUPAB A261 35
J 76Ku03 :
A= *stNd
D 76Be3~ :
tstSm
R 76Co12: 76Ge03:
IStTb
D 76Ba26:
151
RADIOACTIVITY 9~Mo,gTRu,tS*Nd,*6sDy; measured 77(t). **'Pd,'~SEu; measured 77(t),yT(e). 93Mo,97Tc,lsIPm,*6SBo level deduced T,/z. *1*Ag,*47Sm level deduced T1/z,J,w. IANFA 40 85 NUCLEAR REACTIONS tSONd(a,3n} ,E=22.5-30 MeV; measured E7,17, YT-coin. *s'Sm deduced !~vels,J,r,K. Enriched target,Ge(Li} detectors. NUPAB A259 461 NUCLEAR REACTIONS 'soNd(a,3n7),E=16.5-38.4 ~eV; seasured ¢(E, Ey, 8),77(t). • s*Sm deduced levels,K,J,w,T~/a. JPHGB G2 il RADIOACTIVITY ~S'Tb; measured ~7(8,H,t}. *S'Gd level deduced ~. ZPAAD A277 217
A = 152 tSZEu
D 76Bo16:
76Li06:
RADIOACTIVIT Y sT,6oCo,13TCs,,SZEu,,s3Sm, L98Au; measured Ey. ZENAA 31a 387 RADIOACTIVITY t4oBa,*4OLa,'S2Eu: measured I7. JINCA 38 1409 A = 153
ts3Sm *S3Tb tS3Dy
RADIOACTIVITY sY,6oco,t37Cs,'SZEu,*s3Sm, 19SAu; measured Ey. ZENAA 31a 387 ~ADIOACTIVITY IS3Tb; measured Ey,IT,I(ce); deduced ICC. IS3Gd deduced levels,7-multipolarity,6. Mass-separated souzces. IANFA 39 506 RADIOACTIVITY Is3,1ss,lsTDyrlsse's~elSYHotlSY#*sa#*Sgr16°e16*a'6zr163,'66Tm, D 75Gr44: iSSrlSget6o,t6zet63s164yb,*sget63Er,16seITUe'ZtLu, t6THf, ta6,186m-lr; measured spectra,T,/z,~; deduced Q,log ft. 16T,169,171Ta, t69Hf, ITzW; measured T,/z. ,s3,15s,,STTb,XSs,ts6,tSTDy ,tsT,Iss ,sg,180,161, z6z,,63, 166Er , lSS,lSge16u,16zr163,164Tme159e163Hoe16setYsezT'Ybe167LuelS60s deduced levels,K,J,r,k. Discussed decay,level ~ro~ezty systematics. FECAA 4 971
D 76Bo16: D 75Vy01:
24
7
KEY NOMBERS
AND KEY WORDS
A = 15q IS~Eu
D 76Ch08 : 76KuO~: 76ZoOI-
, S~Gd
R 76Ha26:
R A D I O A C T I V I T Y Is~m-Eu; measured E T , I v , l ( ¢ e ) ,TI/~; deduced ICC. Is~Eu deduced levelseJ,r,k,6. P6VCA C13 2011 R A D I O A C T I V I T Y IS~Eu; measured 77(8,Het). *S~Gd deduced attenuation coefficients in Cu. PLRBA B13 2735 R A D I O A C T I V I T Y Is~m-Eu; measured ET,IT,TT-coin,T~/a. 'S~Eu deduced levels,J,~.PRVCA C13 202~ NUCLEAR REACTIONS 72Se,15~, i66,166,16OGd ,176, 178, 1OOHf(=,a,~),E=11-17 Me~; measured Coulomb excitation. S6Ni(,60,2pT) eE=~%-~6 MeV; measured EV,~-delay. TzSe l~vels deduced TI/a,B(A} *s~,*s6,,se,*6OGd ,,76, ~78, 1OOHf levels deduced B (k). YANFA ~0 18 R A D I O A C T I V I T Y *s~yb; measured nothing ,analyzed data, r e d , , e r m i n e d E~. 1~Nd,,~6Sm,1~mGd,*SODy,lS~Er,*S~Yb deduced ~-decay reduced width. PRVCA C13 257~ .
,S~yb
D 76Sc11:
A = 155 ISmTb
D 76~610:
*ssDy
D 75Gr~:
R 76St06:
~SSHo
D 75Gr%~:
RADIOACTIVITY ISSTb; measured Ey,ITeI(ce); deduced ICC, l~g ft. '55Gd deduced l e v e l s , K , J e r , k , N i l s s o n assignments,B(k),g,6. PRVCA C13 2~66 R A D I O A C T I V I T Y ~s3,1ss,lSVDy#~SS,lS6,,SVHo,,Sv,,s~, ,69 16o, 16,,~6ae163,166Tm , Ism,169,16o,16a,lo3,164Yb,'sg,'63Er,'6s,1~CelZ*LUe'67Hfele6,,s6m-Ir; measured spectra,T,/~,~: deduced Q,log ft. 167,*6~,'7*Ta,'6~Hf,,7~W; measured T,/ais~, ,ms,, SVTb , ,ms ,,66, ~SVDy , ,67, ,me, ~s~,, me, ,6~, 1 6 a ,6 ~, ,66Er , *ms e 159 ,I 60, I ~ ,163,16~Tm, 1596163Ho ,165,1 7c, 171Yb, '67Lu, 18606 deduced levels,K,J,~,k. Discussed decay,level ~ro~en%~ systematics. FECAA % 97] N U C L E A ~ REACTIONS IS6Dy(d,t),E=15 HeY; *s6Dy(3He,~),E=2~ SeV; measured e(8). ,SSDy deduced levels,L,J,~,K. CJPHA 5~ I~58 R A D I O A C T I V I T Y *s3,165,167DyelSSelS6~ImVHOe~SVr,Smelmg, 16Oel~,e162,16~,166Tm, 'sse159,160,162,163,16"~Y}DelSg,163Er,165,ITO, 171Lu,~67Hfela6,166m-Ir~ measured spectra,T,/a,8~ deduced Q,log ft. 167,'69,'TITa,'69Hf, eTaW: measured T,/~. ,s~,,ss,,S~Tb,,Ssels6 , S Z D y , , s 7 ,sa,,sg, l ~ o , , 6 , , , 6 a , , ~ , , 6 6 E r " "58,169616°e162w163,16~'Tmelsge163Ho,'65,lVOe17'Ybe'67LU, 1860s deduced levels,~,J,~,k. Discussed decay,level ~rope~ty systematics. FECAA ~ 971 A = 156
,s6Gd
ISeHo
156Er
R 76Ha26:
NUCLFAR REACTIONS 7~Se,~64,156,168,,6OGd,176, iTa, 18OHf(a,~,7),E=11-17 MaY; measured Coulomb excitation. SmNi(160,2pT),E=44-~6 MeV; measured ET,T-delay. ~mSe levels deduced T,/a,E(k ) . 1 ~ , ' s 6 , 1 6 ~ , , 6 o G d e , 7 6 , 1 7 8 , , 8 o H f levels deduced B(k). IANFA ~0 18 P ADIOACTIVITY ~63,165, ISVDy, ,ms ,~ 56,1 STile, 1m7, ,sa# I69, 1 60, ~6~ ,~6z, 163, ~66 Tin, D 75Gr~: ~sm,ls~ ,' 6°, 16z , 1 6 3 , 1 ~ Y b , ~s~ ,'63Er,* 65,' 7c, IT'Lu, ~6THf,* 66, ' e6m-Ir ; measured spectra,T,/~,~; deduced Q,!og ft. *67,*6~,,7,Ta,,6~Hf,,vzw; measured T,/a. I s ~ , , s s , , S T T b , , S s , , s 6 , 1 S T D y , , 6 7 , 1 6 8 , , 6 9 , , 6 o , , 6 , , , 6 a 16~,,66Er , 'ss,159,16°e162,163,16~'Tm~lSg,163HOeI65,17(]e171ybe'67LU, 1%60S deduced levels,K,J,~,k. Discusse~ decay,level ~ro~e~ty systematics. FECAA ~ 971 D 75A126: R A D T O A C T I V I T Y *s6Er [from Ta(660-~eV p,X) ]; measured T,/a,E~,IT, I (ce),77(t); deduce~ log ft. ,S6Ho deduced !e vels ,J ,r, ~i /a, y-multipolarity, 6. M a s s - s e p a r a t e , mien-exchange chemistry. IANFA 39 1661 R 76Su0 5: NUCLEAR REACTIONS '~2Nd(*sO,~n) ,E=90-95 ~eV; measured e(E,E?,8) eyT-coin. ,s6Er deduced levels,K,J,~,backbending. PYLBB 62B 283 A = 157
*SVDy
75Gr~4:
ISVHo
75Gr~:
RADIOACTIVITY 153,ISS,lSTDyelSSelS6,15THoelSVelSSeLSg#I6OeI61aI6aeI63,L66Tm , Ise,lsm,16°e16~,163,16~Yb, lS g e 1 6 m E r , 1 6 s e 1 7 C e 1 7 ' L u , 1 6 7 H f e l e 6 e i 8 6 m - I r ; measured 7 spectra,T1/z,~; deduced Q,log ft. 167,*69,*Z'Ta,*69Hf, S72W; measured Tx/a, s 3 , 1 6 S e * S V T b , t S s , * s 6 , 1 5 z D y 167,158,169 ,,6o,161,16a,163e 166Er " ls6,159,16°,'62rI63,'64Tm,*59,'63Ho,*65,1TIS,'7'YbwI67LU,*860S deduced levels,K,J,v,k. Discussed decay,level ~rope~ty systematics. FECA~ ~ 971 RADIOACTIVITY 's3,'ss,'SZDy,'ss,*s6,1SZHo~,sv, lsm, .59#160,,6,,,6ae,63,166Tm " ' s e , ' s g , 1 6 ° , 1 6 2 , t 6 3 , 1 6 ~ Y b , l s g , ' 6 3 E r e ' 6 s , * T m , 171Lu,'6~Hf, le6,'S6m-lr; measured T spectra,T,/a,~: deduced Q,log ft. ,6r,169,17,Tae169Hf,17zW: measured Ti/2, s 3 , 1 s s , l S V T b , , S s , , s 6 , 1 S V D y , 167,,s.,,69,,eo,.61,162,.63, 166Er , lsse159#16°,162,163w164~Tme1596163Hoe16SelVGw'T'Ybe167Lu,*860s deduced levels,K,J,w,k. Discussed decay,level rro~e~ty systematics. FEC~A ~ 971
25
KEY NUMBERS
AND KEY WORDS
A = 157 C o n t i n u e d ,STTm
D 75Gr~:
RADIOACTIVITY 1 5 3 , 1 5 s
, 5 r C y , , 5 s , l s 6 , 1 57H0 , 157 r 1 5 s , 159,1 60, , 6 1 , 1 6 2 , 1 6 3 # 1 6 6 T m ,
158,159,16°,162,163,164Y]:),lsg,163Er,165,17°,'TlLu, 16~Hfe186, i86m-IE; measured spectra,T,/a,~; deduced Q,log ft. '67,,69,~71Ta,,69Hf,,zaW; measured T,/a. 's3,'ss,'STTb,'Ss,'s6,157Dy, lST,*ss,,s~,,~u,161,162,,63, 166Er , 158,1sg~16°e16a,'63,164Tm, lsg#163HOe165, tT°,'TtYbe167Lu, 1 8 6 0 S deduced levels,K,J,r,k. Discussed decay,level property systematics. FECAA ~ 971 A = 158
*s8Gd
R 76Ha26:
~SeHo
D
lseTm
D 75Gr~:
is8yb
D 75Gr%~:
75A!13:
NUCLEAR REACTIONS 7aSe,ZS6,1s6,zs8,16OGd,*76,*rs, 18uHf (a, a, 7) , E=11-17 ~eV; measured Coul~mb excitation, s 8 N i ( , 6 0 , ~ p T ) , E = ~ - ~ 6 MeP; measured E~,7-delay. 7ZSe levels deduced Tz/~,B(k } . ,s,,~s6,,ss,,eOGd ,,76,,Ta,,soHf levels deduced B{k). IANFA ~0 18 RADIOACTIVITY ,58,,sSm-Ho~ measured ET,IT, T¥-coin; deduced log ft. 'ssDy deduced levels,J,r,5. IANEA 39 q58 R AD~_OACTIVITY 153,155 ,tSTDyeZSS,,S6e,S~Hoe,STelSSelSg,z6o, 16, e,62,163#,66Tm, 15erlSge'6°e16ae~63#164Ybe159,163Ere165,17Oe171Lu, 167Hf, '8~,186m-Ir~ measured 7 spectra,Tt/a,~; deduced Q,log ft. 167 ,169 ,171Ta, z69HfelTaW; measured T1/ais3, ,ms,, STTbe,SS ,156, isTDy , ,sT, iss,, sg, 1 sO, 161, ,62, 163, ,66Er , 'ss, Is9 ,' 6°, 16z ,163,1647m, '59,163H0 ,'6 sel 78,171Yb, 16~Lu, 1a60s deduced levels,K,J,~,k. Discussed decay,level property systematics. FECAA ~ 971 RADIOACTIVITY Is3,~ss,,sTDy, lSS,lS6,ZSTHo, lS~,,s8, lSge160,161,16ae163,166Tm, ZSSelSge16Oe162,163,16"Yb,'SgeZ63Er,Z65,l;a, 171Lue167HfetS6,186m-Ir; measured T spectra,Tt/z,8: deduced Q,log ft. 167,169,'71Ta,169Hf,172W~ measured T./~. I s~, ,ss,t STTb , , ss, 1s6,, STDy , 157, ~58,159, 1 so, is,, 162, 163~ 166Er , 158,159,'6°,162,163,16"~TmelSg,I63Hoe165,17°e'7'YbeI67LU, 1 8 6 0 s deduced levels,K,J,~,X. Discussed ~ecay,level ~ro~e~ty sys%ematics. FECAA ~ 971 A = 159
~SgTb
R 7~ Wi22 : 76Su02:
ISgEr
D 75Gr~:
*SgTm
D 75Gr~:
~SmYb
D 75Gr~:
NUCLEAR REACTIONS *6OGd(p,2n7),E--8 ~eV; measured E7, I 7. ;SgTb deduced levels,J,w,K,band mixing. JPAGB A7 L125 NUCLEAR REACTIONS ISgTb,*6SHo,L69Tm,*TSLu, le*Ta(e,e'p},E=15.0-23.O MeV; measured ,(E,Ep,8) . l S g T b , 1 6 S H o , 1 6 9 T m e l T S L u , l a l T a deduced isobaric analog r e s o n a n c e s , d i s p l a c e m e n t energies,FT. Enriched target *TSLu. Natural target *SgTh,*6SHo,169Tm,lS'Ta. NUPAB A260 172 RADIOACTIVITY ' s 3 , l s s e l s T D y , , s s e l s 6 #lSTHo, ,S'le lSS e lSg ,16oe,6, ,,6a,,63 ,166Tm , 'ss,1sg,16Oe162,163,'64yb,'Sg,'63Er,'65,'Tc,'7'Lu,'67Hf,'a6,186m-Ir; measured T spectra,T,/z,~; deduced Q,log ft. '67,'69,'7'~a,169Hf, tzaW; measured T,/a. , s 3 , , s s e , S T T b e , S S , , s 6 , 1 s T D y ,'sT,,se,'sg,160,161,,6a, 163, L66Er , I Sac Is9,1 60, 162,163,16*Tm, 's9,163H0,16s,I 70, '71Yb, '67Lu, la60s deduced levels,K,J,~,k. Discussed decay,level ~ro~s/ty systematics. FECAA ~ 971 RADIOACTIVITY *s3,'ss,ZSTDye'ss,'s6,'SZHo,'ST,'s8, 1 5 9 , 1 6 o , 1 6 1 , 1 6 : ' , 1 6 3 , 1 6 6 7 m , lss,'sg,160,162,163,'6~yb,lsg,163Ere165, lTc,'71Lu,167Hf, la6,,s6m-Ir; measured T spectra,T,/2,~; deduced Q,log ft. 167,'69,;7'Ta,'69Hf,'TaW; measured T,/a. ,s3,,ss,, STTb,,Ss ,,s6, ,sTDy , ,sT, ,so,,sg,, so, ,6,, ,62, ,63, ,66Er , lSSelSge16Oe16ae163,16B'TmelSge'63HOe16SelTO, 171[b, 167LUe1860s deduced levels,K,J,w,k. Discussed decay,level ~ro~erty systematics. FECAA 4 971 RADIOACTIVITY '53,155, lSTDy, '55, is6, ' 57H0,, 57,15 8,159, t 60, A 61,16a, 163,166Tm, lSSe'sge16Oe'62,163,164ybelSg,163Ere165,lTCe17'Lue167Hfe'66,186m-Ir; measured 7 spectra,T,/a,8 ; deduced Q,log ft. '67,169,17'Ta,*69Hf,'72W; measured T,I z. , s3,,ss,, STTb,lss,,s6,,szDy, ,sz, ,sa,,sg,, ~o,,6,,,6z, 163, ,66Er , Isselsg,16Q e 162,163 e164Tm, 159 e163HO el 65,1 7°, 171~b, '6~LUe 1860s deduced levels,K,J,~,k. Discussed decay,level pro~er~y systematics. FECA~ ~ 971 A
,6oGd
R 76Ha26:
*6OTb
D 76Da09:
=
160
NUCLEAR REACTIONS zaSe,lS4,*s6,zss,z6OGd,176, z78, .8oHf(~e~,7),E=11-17 MaY; measured Coul~mb excitation. SsNi('60,~pT),E=44-46 MeV; measured ET,~-delay. 72Se levels deduced T,/a,B(k } . Is4,1s6,,ss, 16OGd , 176, ,za,,8oHf levels deduced B(X}. IANFA 40 18 R A D I O A C T I V I T Y 160Tb; measured E7,I7; deduced log ft. *6ODy levels deduced K,transitions,band mixiug, B(~2). JPHGB G2 233
26
KEY NOMBERS
AND KEY WORDS
A = 160 C o n t i n u e d ~6OTm
75Gr~:
RADIOACTIVITY
1 5 3 e t S S , l S T D y # l S S e l s 6 , t S T H O e l S T r lS8,159~16°#161#t6:~e~'63,166Tm,
l S S e 1 s 9 el 6o ~ 1 6 2 , 1 6 3 e 1 6 6 ¥ b e Ks9 # 1 6 3 E r e l 6 s # l 7G, 171LUe 1 6 7 H f , 1 8 6 , 1 8 6 m - I r ; m e a s u r e d
t6Oyb
75Gr~:
spectra,T1/2,~; deduced Q,log ft. 167,169,t71Ta e 169Hf # 172W; ~easured T1/20 ts3,1ss,tSTTb,lSs # i s 6 iSTDy ,*s?,tss,tsD,160,161,16z,163, 166Er , lS8elS9 ,I 60e 162e163e164Tme is9 e163NO e16se I ?Oe 171¥be 167LUe 1860S deduced levels,K,J,w,k. Discussed decay,level property systematics. FECAA ~ 971 R A D I O A C T I V I T Y Is3 ,ts5 #IS?Dy, tss~Is6 # I STHo, I sT, tSSe 1s9~ 16°, 16~, 16a, 163,166Tm, ISSetSDet60,t~ze163#16~YbelSmet63Eret65#170,171LUe16?Hf,~e6,186m-lr ; measured spectra,T,/z,~; deduced Q,log ft. 167,169,171Ta,*69Hf,*TzW; measured T,/a. I S3, tSS I STTbelSS , 1S6, IsTDy , ,s?, I s . 1s9, I c o , 161,162, 16 3, 166Er , t S8# 1S9 e l 6 0 , tS z ~ 1 6 3 # 1 6 ~ T m , 1s9 e163Ho , 1 6 5 , 1 ?c# l ? ~ Y b # 167Lue 1 8 6 0 s deduced levelseK,J,~,k. Discussed decay,level [ro~erty systematics. FECAA ~ 971
A
161Dy
75Ka22:
161Ho
76Sc19:
leITm
75Ad08: 75GrOg:
=
7
161
NUCLEAR REACTIONS 161Dy(n,n'T),E<200 eV; 'e~Dy(n,n'7),E<~50 e V ; measured ,(E,~7). 161,[63Dy resonances deduced J,Fn, s~rength functions. YAFIA 22 3 NUCLEAR REACTIONS t6tDy,l?tYb(p,n),E=8.5 MeV; 163Dye173yb(p,n),E=8 HeY; measured 7T-de!ay. 161,1~3Ho,171,173Lu levels deduced TI/a,B(k). Enriched targets. Plastic scintillator,Ge(Li) detector. NUPAB A265 58 RADIOACTIVITY 161Tm[from Ta(660-HeV peX)]; measured E¥,I7,I (ce),77,77(t},E~; deduced log ft,Q. 161Er deduced levels,J, Kew. IANFA 39 1679 RADIOACTIVITY lS3,1ss ,IS?Dy, Iss, 156,1 57Hc, ISTe 158, 159, I 6o, 161# 162# 163,166Tm , ls8#tsDe16Oet6Z#163et64"YhetSDet63Ere165e17°~171LUe167H~ela6,186m-I~. ; measured 7 spectra,T,/a,8; deduced Q,log ft. 1 6 7 # 1 6 9 e 1 7 1 T a , g69Hf# 172W; measured TI/2. ts3,*ss#t STTbelSs ,Is6, Is?Dy, Is7 e Iss ,Is9#I so, 161,16 ~, 16 3, 166Er , lss~tsge16oeI62#163#I64Tmelsge163Ho#16s~t?G,171ybet6?Lu, te60s deduced levelseK,J,~,i. Discussed decay,level ;ropert~ systematics. FECAA ~ 971 A = 162
t6ZDy
R 76Ba33:
1 62Er
R 76Zo02:
~62Tm
D 75Gr~8:
162yb
D 75Gr~:
NUCLEAR REACTIONS 16zDy (n#n'T) ,E=fast(reactcr) ; measured ETeI¥. 16ZDy deduced 7-branching. IANFA ~0 78 NUCLEAR RPACTIONS 161Dy(~,3n7),E=~O HeY; measured I(ce),E7, IT. 16ZEr levels deduced K,ICC. ZPAAD A277 113 RADIOACTIVITY Is3,tss,lS?Dy,lSs,ls6,1STHo, lsT, Is8, l S D e 1 6 0 # 1 6 1 e 1 6 2 # 1 6 3 e t 6 6 T ~ # t S S e l S D , 1 6 0 , 1 6 Z e 1 6 3 , 1 6 ~ Y b , t s D , 1 6 3 E r e t 6 S e 1 7 G , 1 7 1 L u # 1 6 7 H f , le6#ls6m-Ir; measured 7 spectraeT1/2,~; deduced Q,log ft. 167,169,1?ITa, 169Hf, 17zW; measured T1/zt s 3 , 1 S S e , S T T b , l S s , l s 6 , t s T D y ,~sT,Isd,lsD,leo,16,,16a,163, 166Er, ts8, ts9 ,t 60,16 z ,I 63,16~Tm, Is# ,163H0,165, 1 7c, 1~IYb, 167Lu, 1860s deduced levels,K,J,~,k. Discussed decay,level pro~erty systematics. FECAA ~ 971 R A D I O A C T I V I T Y Is 3 ,ts5, ISTDy# 1ms, t s6,1S?Ho, t sT, Is8, tSD# 160,161,16a, 163e' ~6Tm, tssetsDe16°,t62e163#164"yb#1S~,163Ere16S,17Q#171Lu#t67Hfr186#186m-Ir ; measured 7 spec%ra,T[/z,~; deduced Qelog ft, 1 6 7 # 1 6 9 # 1 1 [ ~ a # l e D } { f e I T Z W ~ measured T,/z. is~,,ss I S ? T b , l s s , , s 6 , 1 s T D y , , s T , I s 6 ~59,16o,161,16z,16~, 166Er " ~s8,1sDet6oelezeleme16~Tmels~163Ho,16sezTo,~?~Ybe~TLu#1860s deduced levelseK,J,w,k. Discussed decay,level ~ro~e=Ly sysLematics. FECAA ~ 971 A = 163
~63Dy ~3Ho l~3Er
163Tm
75Ka22 :
NUCLEAR REACTIONS i6*Dy (n,n'7) ,E<200 eV; *63Dy (n,n'7) ,E<~50 eV; measured ~(E, E7) . ,6*,163Dy resonances deduced J,rn, strength functions. [AFIA 22 3 76sc19: NUCIEAR REACTIONS 16*Dy,*7*Yb(p,n} ,E=8.5 MEV; Z63Dy,*T3Yb(p,n),E=8 MeY; measured 77-de!ay. t6t,*63Ro,*Tt,173Lu levels deduced T,/z,B(k ). Enriched targets. Plastic scintillator,Ge(Li) detector. NUPAB A265 58 7 5 G r ~ : RADIOACTIVITY ts 3 flSSw ISTDy, lS5 ,Is6 elm?HOe lS7, IS8,159,1 60,161,162,163,166Tm , l S S e l S D , 1 6 ° r 1 6 a e 1 6 3 e 1 6 4 y b e l S D e 1 6 3 E r , 1 6 5 , L ? o e 1 7 1 L u e 1 6 7 H f , 1 8 6 , 1 a 6 m - I r ; measured 7 spectraeT,/2,~; deduced Q,log ft. ~ 6 7 , . 6 9 , 1 1 * T a , [69Hf, ,72W; measured T1/z,S3s,SS,1 STTb , ss ,Is6,,STDy , ,s7, Ise,lsD,1 60, 161#16 ae 163 ' 166Er ' tSSelS° el 60 e 162 #163e 164Tree Is9 eI63Ho 116 s,[ 7°e 171ybI 167Luw 1860s deduced levels,K,J,,,k. Discussed decay,level property systematics. FECAA ~ 971 R A D I O A C T I V I T Y lS3 #Iss # ISTDy# Iss#Is6 # I STHo, I ST, ts8, IsDe 160, 161, I 62s 163,166Tm, 75Gr4~: 15selsDw16oet62#t63#164yb#lSDe163Ere16SelTOe171Luet67Hfete6#186m-Ir; measured spectra,T1/a,~: deduced Q,log ft. 1 6 7 e 1 6 9 # 1 7 1 T a e 1 6 9 H f t 1 7 2 W ; measured T1/2. I s 3 , 1 s s , l S T T b , l s s , l s 6 157Dy , IsT,isa,lsDeK 60# 161, t 6 Z # 163 e 166Er" 158,159,16°~16:'e163et64"TmetSDe163Hoe165e17(]el?lYbe167LuelS60S deduced !evels,KeJer,k.
Discussed
decay,level
27
~ro~e~ty
systematics.
FECAA 4 971
KEY NUMBERS AND KEY WORDS
A = 163 Continued
1~yb
D 75Gr~,:
RADIOACTIVITY lS3#lSSelS~DyelSS,lS6,lSTHoelST, lSse159e16Oe161,16ae163,166Tme 158,159,16Oe162e163,16~'y]3, lsge163Ere16S#lTOw171Lue167Hf#186,186m-Ir; measured spectra,T1/a,~; deduced Q,log ft. 16~,169,1~lTa, 16eHf,*TaW; measured T1/a. ,s3,1ss,lSTTb,lSs,ls6,1STDy ,,s~,lse,lsg,leo, 161, 16a, 163, le6Er, 15 se lS9 el 6°e 16a el 63,16~Tme 159 e163Ho e16Se I 7oe 171yb, 167LU, 1860S deduced levels,K,J,w,k. Discussed decay,level ~ro~erty systesatics. FECAA ~ 971 A = 16~
16~Dy
R 76Ba3~:
t6~Er
R 76Dai01
I e~y b
D 75Gr~Q:
NUCLEAR REACTIONS 16~Dy(n,n'T) ,E=fast(reactcr) ; measured E~,IT. 164Dy deduced levels,y-branching. IANFA ~0 794 NUCLEAR REACTIONS l ~ D y ( ~ , 2 n T ) , E = 2 7 . 5 MeV; zs~Dy(~,~nT),E=~5 MeV; ls~Sm(14C,qn~) ,E=62 HeY; measured ET,IT, yT(t),7(8 ),TT-coin. 16~,166Er deduced levels,J,~,backbending. JPHGB G2 199 PADIOACTIVITY Is3,1ss, 157Dy, ISSelS6, I STHo, lS7, lS8, lS9, 16o, 161,16a, 163,166 Tin, 158elSge16°e16~e163,16~'Yb, lSe#163Er,16SelT°elTILu, 167Hf,186, l S 6 m - I r ; measured spectra,T1/a,~; deduced Q,log ft. 167,16e,t~ITa, l ~ H f , 1 7 a W ; measured T~/a. IS3elSS,lSTTb,lSs , lS6, lSTDy, lS7, ISS,lSg, 1 so, 161,16 ~, 163, 166Er, is 8e 159 ~ 16° ~ le a,163,16~Tme 159 e 163HO e165e I 7~, 171Ybe 167LUe le~Os deduced levels,K,J,~,X. Discussed decay,level ~ro~erty systematics. FECAA ~ 971 A = 165
t6sDy
D 76Be3~:
165H0
J 76Ab02: 76Po05: R 76Su02:
16STm
R 76Sv011
*~SLu
D 75Gr44:
RADIOACTIVITY "3Mo,97Ru,*S*Nd,*6SDy; measured ~T(t). 111pd,14SEu; measured 77(t),7T(@). 93~o,97Tc, lSIpm, z6SHo is, el deduced T,/a. 111Age*47Sm level deduced Tlla,J,~- IANFA 40 85 NUCLEAR MOMENTS "6Silo; measured p s e u d o m a g n e t i c moment ~. PHYSA 81B 2%5 NUCLEAR MOMENTS 16Silo; measured muonic X-rays,Q,hexadecapole moment, nuclear charge distribution. NUPAB A262 NUCLEAR REACTIONS ISgTbe16SHo,*69Tm,* ;sLu, IalTa{e,e'p),E=15.0-23.0 HeY; measure~ o(E,Ep,@). ISgTb,16SHo,169Tm,*TSLu, lalTa deduced isobaric analog r e s o n a n c e s , d i s p l a c e m e n t energies,FT. Enriched target 17SLu. Natural target ISgTb, 16SHoe169Tm,lelTa. NUPAB A260 172 NUCLEAR REACTIONS 166Er(p,nT),(p,2nT),E=8-12 MeP; measured o(E,E~), Ty-coin,I (ce),yT(t) • 167Tm deduced levels,J,w, ICC,Q,g, T1/a,k. 16STm level deduced T./a,k. PHSTB 13 193 RADIOACTIVITY lS3,1ss,lSTDy,lSS,lS6,1STHo,lST, lSS, lSg, 16o,161,16a,163,166Tm, 1SSelSg,16o,1621163,164yb,lSge163Er,16Se17Ce17ILu, 167Hf, le6, le6m-Ir; measured 7 spectra,T1/a,~; deduced Q,log ft. 167,169,171Ta,169Hf,1~2W; measured TI/~. i s 3 , , s s iSTTb,lSS,lS6,1STDy , l s T , l s s , l s g , * e o 161, 16~, 163, 166Er , 1See lS9 , 16o, 16 2,163,164Tree 159,163Ho ,165~I Tee 171The 167Lu, 1860s deduced levels,K,J,r,k. Discussed decay,level iron,fLy systematics. FECAA ~ 971 A = 166
L66Ho 166Er
D 76Ha26: R 76Dai01
16eTm
D 75Gr~4:
RADIOACTIVITY .66Ho; measured 7T{8). 166Er transitions deduced 6, IANFA ~0 18 NUCLEAR REACTIONS *64Dy (¢,2n7) ,E=27.5 MeV; *64Dy(¢,dnT),E=~5 MeV; ls~Sm (14C,~nT) ,E=62 MeV; measured ET,IT,7~(t),7(8) ,TT-coin. 16~,.66Er deduced !eve!s,J,¢ebackbending. JPHGB G2 199 RADIOACTIYITY Is 3,1ms, ImTDy, Iss,~ m6 ,I sTHo, IsT, Is8, Ise, 16o, 161,16z, 163,166 Tin, lSSe159,t6oet6ze163,16".Y~elsg#163Ere16selTCe171Lue167Hf, l e 6 , 1 8 6 m - I r ; measured 7 spectra,T1/2,~; deduced Q,log ft. 167 #169 , 1 7 1 T ~ e 1 6 9 H f , ITaW; m e a s u r e d l S 3 e l S S 1 STTbe15s e156, ImTDy e 1ST, 1 5 8 , 1 5 9 , i ~50, ][61, 16z r 163 e 166Er ,
T,/2.
1SSelSgw160,162e163e164Tmelsge163HOwleSel;GelTIYb, 167LUelS60S deduced levels,K,J,w,k.
Discussed
decay,level
property systematics.
FECAA 4 971
A = 167 lSTTm
R 76Li071
NUCLEAR REACTIONS '6ZEr(p,n),E=-10 MeV; measured Xce(t). 16TTm level deduced NUIMA 133 99 NUCLEAR REACTIONS '66Er(p,n7),(p,2nT} ,E=8-12 MeV; measured ,(E, ET}, 7T-coin,I (ce),T7(t) . *67Tm deduced levels,J,r,ICC,Q,g, Tl/a,k. 16sTm level deduced T1/a,k. PHSTB 13 193
T,/a.
76Sv011
28
~EY NUMBERS
AND K~Y ~ORDS
= 157 Con L:inued ~THf
D 75Gr~"
RADIOACTIVITY l s 3 , ~ s s , ~ D Y , l s s , l s 6 , t s ~ H O , t s T , t s s e l s D ' 1 ~ ° ' t 6 ~ ' * ~ z ' t 6 ~ ' ~ T m ' ~see~SDeZ~O,~6a,t~3,~6~yh,~sD,~63Er,t6s t~o,~ILUe,6THf,te~,ts6m-Ir; measured spectra,T,/z,~: deduced Q,log ft. * 6 T , ~ , t T t T a , ~ 6 ~ H f , XTZW; measured T,/z. IS3rlSS ,1 STTb, 1s5 ,156 e ~ ~ D y , ,sT, tea ,1s9, ~ 80, l~t, 16z, 16 3, 166Er ,
1 5 8 1 5 9 e 1 6 0 ~ t 6 Z , t 6 3 , 1 6 4 ~ I ~LSDeI63HO,165~I~OeIT~Lyb, 16~LU, lS605 t6~Ta
D 75Gr~:
7
deduced
levels,K,J,~,k. Discussed decay,level property systesatics. FECAA ~ 971 RADIOACTIVITY tsm,XSSe~STDyetSS,lse,~STH°,tsT,~se, lsD,16oe~1"t~z't63'16~Tm" Iss,tSDet~Oe16z t6~,t~yb,tSD,t63Er .6s,~o,t~tLUet6THf,~e6ela6~-Ir; measured 7 spectra,T~/z,~: deduced Qelog ft= teT,*6~,t~*Ta,*6~Hf, t~zW; measured T,/z. ,s~, xss ~ STTb,, ss ,,s~, ~S~Dy , * s~, ,me, ,s~, ~ eo, ,et, t6a, ~6 ~, ,~6Er , t s s , t s D e t 6 O e l S Z , t 6 ~ , 1 6 4 T ~ e l S D e 1 6 3 H o , 1 6 S e ~ O , t71yb, t6TLu, ls60s deduced levels,K,J,w,k. Discussed decay,level ~ro~er%y syste~atics. FECAA ~ 971 A = 169
~6~Tm
~69Yb
*e~Hf
*~gTa
NUCLEAR REACTIONS *SDTb, t6SHo,~69Tm,*~SLu,*atTa(e,e'p),E=15-O"23-O ~e~; measured ,(E,Ep,8). tSDT~e165~Oe~69Tm,tTSLuelStTa deduced isobaric analog resonances,displacement energies,FT. Enriched target 'TSLu. Natural target ,S,Tbet6SHo,*eDTm,:S*Ta. NUPAB A260 172 ~ADIOACTIVITY *~DYh; measured I(ce) ,subshell ratios. ~ T m transitions deduced D 75Me08: ICe. IANFA 39 550 76Ar06 ~. RADIOACTIVITY ~6~Yb; measured ET,I(ce),subshell ratios, Auger spectra. * ~ T m deduced levels,J,~,7-multipolarityMass-separated source. IANFA ~0 32 RADIOACTIVITY *S3e*SS,~STDy,lSS,*Se,~STHo, tST, 15S~e lSDeIL6Ge161"I62"16~e166Tm# D 75Gr~: 15e,tsD,~6o,~z,x63,~6~yh, tsD,X~3Er,~6s,t~oe|TILu, 16~Hf,*e6,~e~m-Ir; measured 7 spectra,T,/a,~; deduced Q,log ft. *eT,*6",*TtTa, t69Hf,*TZW; measured T,/z. I s ~ , t s s , , ~ T b ,s s ,ts6,tsTDyetST ,sa,,sD,,eo [6,,tez , 163, 16~Er, tSSetS~et6o,t~,163,t6~Tm is9 t63Ho,lese1~Oe1~tYb, 1~TLu, ls60s deduced levels,K,J,~,k. Discussed decay,level ~ro~erty systematics. FECAA ~ 971 RADIOACTIVITY ts 3,ts5, ~STDY, ~ss, Is~, xSTHO, ~ sT, 1s6, teD, I~0, ~6~, t 6re ~ 3 , t ~ T m , D 75Gr~: ~LSS~ISD,Z6O,I~ae]L63,JL6~,yb~lSD,163EE 16s,17c, t~ILu,*~THfe~ee,*e6m-Ir; measured 7 spectra,T,/z,~; deauced Q,log ft. ~ , t e e , t T * T a , * ~ D H f , * T z W ; measured T,/a. ~s~,ts5 tS~Tb ,tss,ts~,tsTDy , ts~,~sa,tsD,*eo ~6~,.6z, ,~,,66Er, tss,159 ~60,l~Ze163,I6"~T~,XsDele3Ho,t65,tTOetT~Ybet6TLu,~e60S deduced levels,K,J,~,k. Discussed decay,level p~o~erty systematics. FECAA ~ 971 R 76Su02 :
A =
~oLu
D 75Gr~% :
170
RADIOACTIVITY t53,lSSetS~DyelSS,1s6,tSTHOelST, xse, 159,16°,~6~, 16ze~63,t66Tm, tss,tsD,t6ott6a,t63,t6~YbetSD,~63Er,t6s,~o,1~Lu,~6~Hf,~s6,186~-Ir: measured spectra,T1/z,~; deduced Qelog ft. x~T,te,,~71Ta, 169Hf, *TAW; measured T,/a. ts~,tss,~STTb,~Ss,lse,tsTDy ,,sTetss,*sD,t eo,,6,,,~z,-63,,66Er ,
lsee~s916o~tOZe163,t64Tm,lSDe~L~3Hoet65,tToet~lyb~t67Lu, ls60s levels,K,J,,,ko
Discussed
decay,level
A
~Lu
~ Ta
=
property
systematics.
7
deduced
FECAA ~ 971
171
RADIOACTIVITY *T*Lu; measured ET,l(ce); deduced ICe, log ft. 17*yb levels deduced J,w,k,6. IANFA 39 523 RADIOACTIVITY ,T,Lu[from Ta(660-~eV p,X) ]; measured I (ce),subshell-ratios. 75Ar26: *TtYh transition deduced anomalous El,penetration. IANFA 39 1773 RADIOACTIVITY ts3,1ss,lSTDy,lSSrlS6ttSTHOe,S7 , t58, IsD,16o,16t,16z,163,166Tm, 75Gr~: ise,lsD,16o 15ar163,164yhslsDt163Ere165,lTOe171Lue16THf, le6,186m-lr: measured spectra,Tt/z,~; deduced Q,log ft. *eT,169,17XTa,*egHf,*~aW; measured T,/aIs3, tSS et STTbe tSS elS6 , tSTDy, tsT, Iss e tsD ,16Oe16t ,16ae 16 3, 166Er, 158,159,16o,16ae163,164TmelsD,163Ho,16s,17eeITIYbet6TLu, lS60s deduced levels,KeJ,~,k. Discussed decay,level property systematics. FECAA % 971 R 76Sci g: NUCLEAR REACTIONS '6*Dy,*T*Yb(p,n),E=8.5 ~eV; ts~Dy,*T3Yb(p,n),E=8 MeV; measured 77-delay. ,61,,e3Ho ,171,1T~Lu levels deduced T,/a,B(k). Enriche~ targets. Plastic scintillator,Ge(Li} detector. NUPAB A265 58 RADIOACTIVITY 153,155,1STDYelSSelS6,1STHo,*sT, ISaw*SDe*6°t16*,16a,163,166Tm, D 75Gr~: ise,lsD,16Oei62,163,164yb, l s D , 1 6 3 E r , 1 6 s , 1 7 C e 1 1 1 L u , ~ H f e l e 6 , 1 s 6 m - l r ; measured spectra,T~/z,~; deduced Q,log ft. teTet69,*~*Ta,*69Hf, xTzw; measured T,/a. ,s~,,ss,,STTb,,Ss,zs~,.s~Dy ,,sT,tssrtsD,*~o,*6*,*6z,*6~, ,~Er, tssexsDe16o~162,163,t~T~etSD,163Ho~t65,l~,~T~Ybe~6~LUelS60s deduced levels,K,J,~,k. Discussed decay,level ~ro~ezty systematics. FECAA ~ 971
D 75Ar15:
29
7
7
KEY NSMBERS AND KEY WORDS
A = 172 1~ZLu
D 75Dz02:
1TaW
D 75Gr4~:
R A D I O A C T I V I T Y *7~Lu; measured n o t h i n g , a n a l y z e d previous data; deduced 13g ft. 17~Yb deduced levels,J,~,K. IANFA 39 1277 R A D I O A C T I V I T Y lS3elss,' STDy, Iss,ls6, ISTHo, I ST, "as, ~sg,z 60,161,16a, 16~,~6~Tm, Ass, Is9,1 60,16a,~63,16~Yb, Isg,I~3EE ,16s, 1 7c, ~71Lu, 167Hf, I e6, I s~m-Ir ; measured spectra,T,/z,~ ; d e d u c e d Q,log ft. ~ T , ~ 6 9 , 1 7 ' T a , 169Hf, 1TAW; measured T,/a. I s a , x s s , t S T T b , l S s , l s ~ , i s T D y , I$~,,sa i s g , x e o , 1 6 , , x 6 ~ , , ~ a , , 6 6 E r , 15s ~ 1 5 9 , 1 6 0 , 1 6 2 , 1 6 3 , 1 6 ~ T m e 159,163H0 ,~ 65, I 7G, 1 7 1 [ b , 16~Lu, 1 s60s deduced levels,K,J,~,k. D i s c u s s e d d e c a y , l e v e l p r o p e r t y s y s t e m a t i c s . FECAA ~ 971 A = 173
173Lu
R 76Sc19:
NUCLEAR measured targets.
REACTIONS 16,Dy,1~,Yb(p,n) ,E=8.5 ~ ; ,63Dy ,,73Yb(p,n),E=8 MeV; ~ - d e l a y . t6,,,63Ho ,,71,1~3Lu levels deduced TI/a,B(A). Enriched Plastic scintil!ator,ge(Li) detector. NUPAB A265 58
A = 175 i 7SLu
17SHf
R 76Su02:
NUCLEAR REACTIONS ISgTb,16SHo, 16~Tm,*TSLu, l a * T a ( e , e ' p ) , E = 1 5 . 0 - 2 3 . 0 MeV; measured .(E,Ep,O). ~S~Tb,16SHo,*6~Tm,17SLu,'81Ta deduced isobaric analo~
r e s o n a n c e s , d i s p l a c e m e n t energies,FT. Enriched target ir~Tu. Natural target • S ~ T b , 1 6 S H o , * 6 9 T m , l e I T a . NHPAB A260 172 D 76 PrO3 : R A D I O A C T I V I T Y *TsHf [from *7~Hf(n,7)]; m~asured E~,IT. 17SLu deduced transition. Ge(Li) detector. PRVCA C13 2591
A = 176 I;6Hf
R 76Ha26:
NUCLEAR REACTIONS 7 ~ S e , l S 4 , z s 6 , 1 s a , 1 6 O G d , 1 7 6 , 1 7 s iSOHf(~,a, 7)#E=11-17 ~eY; measured Coulomb excitation. S S N i ( * 6 0 , 2 p T ) , E = 4 ~ - 4 6 HeY; measured ET,7-delay. 7zSe levels deduced TI/a,B(A). 15~,ts~,*sa, 16UGd, 176, 'Ta, laoHf levels deduced B (k). IANFA ~0 18 A = 178
1 78Hf
D 76De20:
R 76Ha26:
76Ro09: 178W
E 76Ca15:
R A D I O A C T I V I T Y 17Sm-Hf [from *8*Ta(y,2np) ]; measured E;,I~,I(ce),77-coin, ET-coin,XT-coin. 17SHf deduced levels,J,,,ICC, g, m u l t i p o l a r i t i e s . Ge (Li),Si (Li), i n t r i n s i c Ge detectors. Natural targets. NUPAB A263 397 NUCLEAR REACTIONS 7 2 S e , l S 4 , 1 s 6 , 1 s a , 1 6 O G d , * 7 6 , * 7 8 , 1 S ° H f ( ~ , ~ ' ~ ) , E = 1 1 - 1 7 MeV; measured Coulomb excitation. S S N i ( * 6 0 , 2 p y } , E = 4 4 - 4 6 SeV; measured ET,;-delay. 7zSe levels deduced T,/z,B(k) . is~,is6,,s8 16OGd , 176, ,TS,,SOHf levels deduced B(i}. IANFA 40 18 NUCLEAR REACTION * T T H f ( n , 7 ) , s e l f - i n d i c a t i o n , E = 1 0 - 3 0 0 eV; measured ,(E,ET). *TaHf resonances deduced Fn,S. S t a t i s t i c a l test for i n t e r m e d i a t e structure. N U P A B A264 93 NUCLEAR REACTION l a * T a ( p , 4 n ) , E = 3 3 . 3 - ~ . 6 M~V; measured E~,£T,I(ce), 77-coin,7 (8),pT-delay,pce-delay. 17sW d e d u c e d levels, J,~,ICC, T1/a, m u ! t i p o ! a r i t i e s , B ( E 1 ) . Single gap e l e c t r o n spectrometer, Ge(Li) detectors, natural targets. NUPAB A265 1
A= 179 ITgLu 179Hf
R A D I O A C T I V I T Y 179Lu [from *8oHf(;,p) ,*79Hf(n,p) ]; measured ET, I~,TT-coia; deduced log ft. ZTgHf deduced levels ,J ,r. PRVCA C13 2512 R A D I O A C T I V I T Y IsoSm,179Hf,19aIr; m e a s u r e d double internal conversioneICC. D 75Pr06: YAFIA 21 1145 NUCIEAR REACTIONS tTSHf(n,T) ,E=-th; measured ET, I T , I ( c e ) , T T - c o i n . *;gHf deduced R 76Be23: l e v e l s , J , w , K , I C C , t r a n s i t i o n multipolarities. Enriched targets. NHPAB A262 273
D 76Hi07:
A
*8OHf
R 76Ha26:
=
180
NUCLEAR REACTIONS 7aSe, * s ~ , * s 6 ~ * s s , * 6 c G d , * T 6 , * T s , * 8 ° H f ( a , a ' ~ ) , E=11-17 MeV; measured Coulomb excitation. S e N i ( * 6 0 , 2 p T ) , E = 4 ~ - ~ 6 ~eV; measured ET,7-delay. 72Se levels deduced T,/2,B(i) . 1 5 ~ , i s 6 , 1 s s , 1 6 O G d , 176, 178, ISOHf levels deduced B(k) . IANFA 40 18
30
KEY NUMBERS AND KEY WORDS
A
Is~Hf
D 76Ca11:
le~Ta
76Sh10: J 76Ba20: R 76Su02:
~S~Re
R 76Ne03:
lsIOs
R 76Ne03:
IS*Hg
J 76Ho09:
R 76Ca10~
=
~83Hg
J 768009=
R 76Ca10:
IS4Re
D 76K106:
IS~Os
R 76Ne03:
76Sh15:
183
NUCLEAR REACTIONS ISITa(a,~n~),E=52 MeV; *sz, Is4,186W(a,znT),X=%,5,6,7,E=65-88 MeV; measured E~,IT,TTAt-coin,~7-delay. ,S,Re ,,s,, Is3,*8~Os deduced !eve!s,J,~,T,/a,k, 7-branching,6. Enriche~ targets. Ge(Li) detectors. NUPAB A261 189 NUCLEAR MOMENTS IeI,18~,Iss,*s~,*89,1~IHg; measured hyperfine splitting,isotope shift,nuclear spin. IsI,Is3,*ss,*s~,IsPHg; measured g. ZEPYA A276 203
A
i s4W
182
NUCLEAR REACTIONS Iso,le~W(t,p),E=15 MeV; measured ,(Ep, e): deduced Q. le~,is~W dedeced ~ ratios,systematics. Enriched targets. NUPAB A261 4~5
=
R 76Ne03:
181
RADIOACTIVITY 18IHf; measured ICC for 6. ~-keV transition in * S'Ta. ZEPYA A277 59 ~ADIOACTIVITY ~SIHf; measured 7T(t)- 18'Ta level deduced T,/a. AJPIA 4~ 380 NUCLEAR ~OSENTS ISITa; measured hyperfine field in ZrZn a. JPCPA C9 1303 NUCLEAR REACTIONS "5~Tb,I~sHo,I~PTm, I*sLu,lelTa(e,e'p),E=15.0-23.0 ~e~; measured ,(E,Ep,e). I S P ~ b , I ~ B o , I ~ P T m , * ~ S L u , lSITa deduced isobaric analo~ resonances,displacement energies,FT. Enriched target I~SLu. Natural target • SPTb, I ~ S H o , l ~ T m , l S * T a . N~PAB A260 172 NUCLEAR REACTIONS I ~ I T a ( a , ~ n T ) , ~ 5 2 MeV; ,sa, I s % I s e W ( e , xnT),X=4,5,6,7,E=65-88 MeV; measured ET,IT,77At-coin,~y-delay. lairs, is,, is3,1a~Os deduced !eve!s,J,~eT,/a,X, 7-branching,6. Enriched targets. Ge(Li) detectors. NUPAB A261 189 NUCLEAR REACTIONS IsITa(a,4n% ~) ,E=52 MeV; lea, Is~, 1sew (e,xnT),X=4,5,6,7,E=65-88 ~eV; measured ET,IT,77&t-coin,~7-delay. ISlR~,IsI, 183,*s~Os deduced !eve!s,J,~,T,/a,k, 7-branching,6. Enriched targets. Ge(Li) detectors. NUPAB A261 189 NUCLEAR ~OMENTS *s*,*8~,Iss,*8~,ISP,'"IHg; measured hyperfine splitting,isotope shift,nuclear spin. is,,ism, iss, is;,iSPHg ; measured g. ZEPYA A276 203
A
~seW
=
=
184
NUCLEAR REACTIONS ,8o,lsaW(t,p),E=15 MeV; measured ,(Ep, O); deduced Q. 18a, ls4W deduced 9 ratios,systematics. Enriched targets. NUPAB A261 4~5 RADIOACTIVITY *84Re [from Is~W(d,2n} ]; measured ET, I~,I(ce). *8~W deduced 7-branching,ICC,7-multipolarity,6. IANEA WO 78~ NUCLEAR REACTIONS 18*T~(~,4n7),E=52 MeV; Isa, ls~, Is6W(u,xnT)eX=%,5,6,7,E=65-88 MeV; measured ET,IT,77At-coin,uT-delay. i SIR~ , isl, is3,1840s deduced !eve!s,J,~,TI/a,X , 7-branching,6. Enriched targets. Ge(Li) detectors. NUPAB A261 189 NUCLEAR REACTIONS 186,1sT,IsP,19°,lpaos(p,t),E=19 MeV; measured ~(Et,O). Is~,Iss,lsT,18s,19oos deduced levelseK,L,J,~. Pairing plus DWBA. PRVCA C13 2288
= 185 1850s
R 76Sh15:
NUCLEAR REACTIONS *86,*87,L89,zgo,1920s(p,t),E=19 ~eV; measured *"4,*es,zsT,*es,zPoOs deduced levels ,K ,L, J, ~. Pairing plus DWBA.
~SSHg
J 76Bo09:
NUCLEAR ~ O ~ E N T S ISlw183,185e187,1SP,191Hg ; measured hyperfine splitting,isotope shift,nuclear spin. 181,,e3,,ss, laT,,aPHg; measured g. ZEPYA A276 203 A = 186
31
a(Et,8). PRVCA C13 2288
KEY NgMBERS AND KEY WORDs
= 186 Continued *8eIr
D 75Gr~:
RADIOACTIVITY ls3,lssetsrDyelSSetS6,[STHoelSr, lSSelSg,16o, 161~lL~ae~63,166Tme tSSelSge16Oe162,163,16~[belsgg183Er,t65,l~O, lTILUe16~['~f,186els6m-Ir ~ measured spectra,T,/z,~; deduced Q,log ft. ~ e r , ~ e v , ~ T a , * e V H f , ~rzw; measured Tt/z. t s3,*ss,, SITb,*SS ,18~, *SIDy , 18~, tS8 ,~S~,1 60, ,61,16re *6 3, ,~SEE , 158,1sg,t60,16zex6~et6~Tm,Xsge163Hoe16s, t~o, 1~IYbe[67Lu¢1880s deduced levels,K,J,,,k. Discussed decay,level ~ro~ezty systematics. FECAA ~ 971 A = 187 NUCLEAR REACTIONS *8~,tar,*eg,.~o,tgzOs(p,t),E=19 HeY; measured *s~,*8s,tsr,'se,*9oos deduced levels,K,L,J,,. Pairiug plus DWBA.
tS?Os
R 76Sh15:
*8?pt
NUCLEAR REACTIONS ~ L s ~ , t s s , t g u , l g z o s ( ~ , 3 n T ) , E = 3 0 - 5 0 MeV; measured ~(E,EI,8},IT-coin,YI(t ) . *xr,~a~,z~zPt deduced levels,J,w, Tz/a,k. PRVCA C13 2208 NUCLEAR ~OMENTS 18~,18~,tss,tar,~ag,*~Hg; measured hyperfi~e J 76Bo09: splitting,isotope shift,nuclear s p i n . . 8 1 ,,83, tss,,ar,,89Hg ; measured g. ZEPYA A276 203
t87Hg
o(Et,~) . PRVCA C13 2288
R 76Pi03:
A = 188 t8aOs
R 76Sh15:
NUCLEAR REACTIONS ta~,tsr,,sg,*9o,z~ZOs(p,t),E=19 ~eV; measured ¢ ( E t , @ ) . ts~,zes,zs?,'ss,tgOOs deduced levels,K,L,J,.. Pairing plus DWBA. PRVCA C13 2288
t88T!
D 76Ha25:
RADIOACTIVITY *g3Pb~ measured Tt/z,ET,IT,TI-coin. teST1; measured EI, II, II-coin,I(ce} ,Ice-coin. *8"TI,*8~Hg; measured E7,I7,77 &, 7X-,Ice-coin. 188,t89Hg,Zg3Tl deduced lewels,J,,,shape isomers. IANFA ~0 2 A
,89Re
R 76Hi08:
*sgpt
R 76Pi03:
tSgHg
J 76BOO,: D 76Ha25:
18gTl
D 76Ha25:
189
=
NUCLEAR REACTIONS *sa,*9°Os(t,=),E=15 MeV; measured ¢(Ea). *ag,*gIRe deduced levels,J,,. CJPHA 54 1360 NUCLEAR REACTIONS 186,t88,.9o,*gzOs(~,3n7),~=30-50 HeV; measured ¢(E,EI,e} ,IT-coin,IT(t}. 18z,tsg,*9*Pt deduced !evels,J,,,T,/a,k. PRVCA C13 2208 NUCLEAR MOMENTS 1 8 1 L # 1 8 3 , l S S , 1 8 7 , l S g , 1 9 1 H g ; measured hyperfine splitting,isotope shift,nuclear spin. ,8,,183, ,88,,87,,89Hg ; measured g. ZEPYA A276 203 RADIOACTIVITY t93pb; measured T,/z,EI,II,TT-coin. *SAT1; measured EI,I7,77-coin ,I(ce},Ice-cOin. *8,TI,*S"Hg; m~asured EI,II,7I-, IX-,Ice-coin. *es,*89Hg,*93Tl deduced levels,J ,w ,shape isomers. IANFA qO 2 RADIOACTIVITY t"3pb; measured T,sz,EI,IT,II-coin. *SSTl; measured ET,I7,77-coin,I(ce} ,Ice-coin. *8gTl,t8gHg; measured ET,II, II-,TX-,Ice-coin. t88,t89Rg,t93Tl deduced levels,J ,, ,shape isomers. IANFA ~0 2 A = 190
1900 s
R 76Sh15:
tgopt
R 76Cu02:
NUCLEAR REACTIONS *86,187,t89,tgo,*gaOs(p,t),E=19 MeV; measured ¢(Et,8}. 184,*es,*sr,*88,*9oOs deduced levels ,K ,L, J, ,. Pairing plus DWBA. PRVCA C13 2288
NUCLEAR REACTIONS *9o,19zOs(~,4n7) ,*ee, tgoOs(~,2n7},E=28-50 MeV; measured e(E,EI,0),TT(t}. ,go,lgzpt deduced !evels,J,.,T,/z,backbending. PRVCA C13 2197 NUCLEAR REACTIONS 190,tgZOs(~,4nT | ,E=~3-51 ~eV; ,sa,,98,*gzos(~,2nT),E=23-27 76Nj01: MeV; measured ¢(E~,EI,8} ,EI,IT,IT-coin,TI-delay,Ee, Ie. *9o,*gz,*949t deduced levels,J,,,Tt/z,ICC. Calculations within the rotation-alignment model. NUPAB A262 328 A =
*9*Re 19*pt
191
NUCLEAR REACTIONS 188,tgOOs(t,a),E=15 MeV; measured o(Ea). Ieg, 191Re deduced levels,J,,. CJPHA 5q 1360 NUCLEAR REACTIONS *e6,las,*ga,tgzOs(~t3n7),~=30-50 MeV; measured R 76Pi03: ¢(E,E7,e),TI-coin,TT(t}. 16T,*ag,*gtPt deduced levels,J,,,T1/z,k. PRVCA C13 2208 R 76Hi08:
32
KEY
NUMBERS
AND
KEY
WOR~S
A = 191 Continued 191Hg
J 76Bo09:
NUCLEAR MOMENTS *81,1a3,'~s,lS~,ls~,*9~Hg; measured hyperfine splitting,isotope shift,nuclear spin. lel,*e3, las, 18~,la~Hg : measured g. ZEPYA A276 203 A
l~sir *gapt
=
192
RADIOACTIVITY *sosm,'~"Hf, l"zIr; measureO double internal ccnversiou,ICC. YAFIA 21 1145 NUCLEAR REACTIONS tgo,~gZOs(a,4~7} ,'as,xg°Os(~,2nT},E=28-50 ~eV; measured R 76Cu02: ~(E,~T,O),77(t). .9o,tgzpt deduced levels,J,,,Tl/z,backbending. PRVCA C13 2197 NUCLEAR REACTIONS t~o,t,aOs(¢e4n7 ) ,E=q3-51 ~eV; 18a, tgo,~gzOs (a,2nT},E=23-27 76HJ01: ~eV; measured ~(E~¢E7,O) ,ET,IT,77-coin,TT-delay,Ee, Ie. 190,l~Z,'9~pt deduced !evels,J,~,Tl/z,ICC. Calculations within the rotation-alignment model. NUPAB A262 328
D 75Pr06:
A =
tg~pb
D 76Ha25:
RADIOACTIVITY 193pb: measured T,/z,ET,IT,TT-coin. *SAT1; measured ET,!7,77-coin,I(ce} ,Toe-coin. lSgTl,tagHg ; m~asured ET,IT,77-, 7X-,Tce-coin. 188,lSgHg,193TI deduced !evels,J ,w ,shape isomers. IANFA 40 2
A =
lo¢pt
R 76Hj01:
NUCLEAR REACTIONS *"TAu(7,7); measured Mcssbauer effect. 197Au deduced isomer shifts ,electric quadrupole Splitting ,correlation in various Au compounds. ZEPYA 2~0 1 NUCLEAR REACTIONS zosPb, 197Au(p,p'),E=61 MeV; measured ~(Ep',O). 197Au deduced 76Be25: no fine resonance structure, aUapb deduced giant resonance structure,L,~(L}. DWBA. PRVCA C13 2 2 t l l
D 76Bo16:
PADIOACTIVITY
t99Au
P 75Velq:
*egpo
D 76Ko13:
=
200
RADIOACTIVITY zoopt; measured Ta/z. zoopt, deduced log ft. zo"Au,zo°Hg deduced levels, 2~84 D 76 8i06 : RADIOACTIVITY zoopt; measured T,I a. zoopt, deduced log ft. 2OOAu,ZOOHg deduced levels, 2Q8~
D 76Hi06:
A
zoxpo
199
RADIOACTIVITY *99Au; measured ~7(8); deduced shape-correction factor. IJOPA 166 RADIOACTIVITY 199ei99mtZOXwZO!me~O3,,aO3m-Po; measured ET,IT,TT-coin,I(ce) ,Tl/z; deduced ICC,EC-£ranching. 199, zol,zo3Bi deduced leve!s,J,w,k. APOBB B7 141 A =
zoo Au
198
ST,eOCo,'3TCs,lSZEu,lS3Sm, 19SAu; measured E¥. ZENAA 31a 387
A
zoopt
197
R 70Ba83:
A = 198Au
19~.
NUCLEAR REACTIONS *9o,tgzOs(a,4nT),E=43-51 BeY; xss,19o,19zOs(a,2nT),E=23-27 MeV; measure4 a (Ea,ET,0) ,ET,IT,TT-coin,TT-delay,Ee,le. '90,19Z,194Pt deduced levels,J,w,T,j~,ICC. Calculations within the rotation-alignment model. NUPAB ~262 328 A =
197Au
193
D 76Ko13:
=
aUOAu; measured ET, IT, TT-coin; J,w. Ge(Li) detectors. P~VCA C13 zOOAu; measured ET, IT, TT-coin ; J,w. Ge(Li) detectors. PBVCA C13
201
RADIOACTIVITY t99,X99m,ZOl,ZOXm,ZO3,zu3m-po; measured E7,1T,TT-coin,I(ce},T,/a; deduced ICC,EC-hranching. *99, aot,a"3Bi deduced levels,J,w,k. APOBB B7 141 33
13
KEY NUMBERS AND KEY WORDS
A = 202 zo ~'po
R 76Be12:
NUCLEAR REACTIONS ~eZAu(~OB,xnT) ,(~tB,xnT),zo~pb(a, xnT),E=50 MeV; z°ePb (=,xnT},E=77 MeV: measured ET,IT,77(t },7(8)" zua,zo~,zo6Po deduced !eve!s,J,v,T,/z. PRLTA 36 1128
A = 203 ZO3T 1
R 76Da12:
203p o
D 76Ko13:
NUCLEAR REACTIONS S6Fe, ZO~Tl(n,n,7); measured 7(8). 56Fe,ZOSTl levels deduced O,~. NUIMA 134 291 measured RADIOACTIVITY *~9,t~gm,zo*,zo* m , z o ~ , 2 o ~ m - P o ; E7,I7,77-coin,l{ce) ,T,/a~ deduced ICC,EC-hranching. *"9, zoo,zomBi deduced leve!s,J,~,k. APOBB B7 141
A = 20% zo*p o
R 76Be12:
NUCLEAR REACIIONS * ~ A u (tOB,xnT) ,(t*B,xnT),zo6pb(=,xnI),E=50 HeY; zsePb(~,xnT),E=77 MeV; measured ET,17,77(t),I(8). z°z,zo'~,zo6Po deduced leve!s,J,~,T,/m. PRLTA 36 1128
A zOSPb
R 76Li09"
=
205
NUCLEAR REACTIONS ZOdHg(=,3n7),E = ~ 0 ~ e V ; measured ET,IT,7(t),I(ce) ,77-coi,,7(8,H) : zOSpb deduced levels, J,w, Tx/z,k,ICC, B(k},g. ZPAAD A277 273
A =206 zOepb
R 76Mc05:
zOepo
R 76Be12:
NUCLEAR REACTIONS zu6,zoT,zoapb(7,n ) ,E=8.120,8.533,8.999 MeV; measured e(E, En); deduced Q. zo6,zoT,aOSpb levels d~duced rn, S. PRVCA C13 1864 NUCLEAR REACTIONS 1 9 7 A u ( t U B , x n 7 ) , ( * ' B , x n 7 ) , z o 6 p b ( a , x n I ) , E = 5 0 MeP; zOSpb(~,xnT),E=77 MeV; measured E~,IT,TT(t),7(8 ). zoz, zod, zo6po deduced levels,J,w,T,/a. PRLTA 36 1128 A = 207
zOZpb
J 76Bo14:
NUCLEAR MOMENTS zozpb; measured temperature dependence of hyperfine interaction in CaWO 4. ZPBBD B23 307 R 76Mc05: NUCLEAR R~ACTIONS zo6,~oT,z.spb(T,n) ,E=8.120, 8. 533, 8. 999 MeV; measured w(E,En): deduced Q= zo6,zoT,2oapb levels deduced Fn,S. PRVCA C13 1864 D 76Av01: R A D I O A C T I V I T Y zuTBi; measured 77(8). zOTpb transitions deduced 6. PRVCA C13 2067 76 Av02 : RADIOACTIVITY sTCo, ZOTBi: measured ca-spectrum. NUIMA 133 579
ZOTBi
A = 208 zospb
R 76Be25:
NUCLEAR REACTIONS zosPb,*97Au(p,p,),E=61 MeV; measured e(Ep',~). *gTAu deduced no fine resonance structure, zOSpb deduced giant resonance structure,L,~(L) . DWBA. PRVCA C13 2241 76De I ~: NUCLEAR REACTIONS zosPb(~,~,7),E=35 MaP; measured ~'~(8). aoaPb level deduced J,w. PRVCA C13 2089 761n03: NUCLEAR REACTIONS zesPb(p,p,),E=185 MeV~ measured w(Ep',8}, zssPb levels deduced ~ (L). PHSTB 13 208 76 Mc05 -. NUCLEAR REACTIONS zo6,zoT,zuepb(7,n) ,E=8.120,8.533,8.999 SaP; measured e(E, En); deduced Q. zo6,zoz, zUSpb levels deduced Fn, S. PEVCA C13 1864 76Moi 8: NUCLEAR REACTIONS zusPb(p,p,),E=~5 MeV; z°sPb(3He,3He'),E=70 MeY~ measured e(8). zosPb deduced resonances,L. PRLTA 37 263 76Sm03: NUCLEAR REACTIONS zOSPb(7,7 ) ,E=1354 keV; measured resonance absorption, zoapb deduced resonance,r. PRVCA C13 2071 A = 209
Z°gTI
.
.
.
.
.
~UCLEAR REACTIONS ztoPb(t,~),(t,d) ,E=20. O ["leV; measured ~(E~,@),q(Ed,e). ZOgTl,Zt*~b deduced levels J,w,L. E n r i c h e d target. NUPAB A259 435
R 76EI07:
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
34
KEY
MUMBERS
AND
A =
z~Opo
D 7~Sc~I:
RADIOACTIVITY JPAGB A7 1171
a*Opo;
KEY
WORDS
210
m e a s u r e d L X-ray/=
emission, L X-ray subshell
ratios.
A = 211
z**pb
R 76EI07:
ax, Bi
R 76F!12:
NUCLEAR REACTIONS a*opb(t,~) ,(t,d) ,E=20. O M~V; measured ,(E~, O ) , o (Ed,8). a O g T l , a , * p b deduced levels J,w,L. E n r i c h e d target. NUPAB A259 435 NUCLEAR R E A C T I O N S aospb,2O,Bi(t,p) ,E=17 ~eV; m e a s u r e d ,(Ep, O). a**Bi d e d u c e d !evels,L. NUPAB A263 365
A = 223 223R a
D 76Li13=
RADIOACTIVITY 13~ 553
22~Ra;
m e a s u r e d Doppler effect,
A ~STh
R 76As02:
=
aXgRn levels deduced T,/~.
NUI~A
235
NUCLEAR REACTIONS a ~ s U ( ~ , ~ ) , E = t h e r m a l ; deduced mass,QS. NUPAB A259 ~29
m~asured ,(E~); deduced Q. Z~STh
A = 237 amTNp
D 76Sk01:
R A D I O A C T I V I T Y z3TNp; 5~ 1409
measured ET,IT,TT-ccin.
a33Pa deduced levels, J,,. C J P H A
A = 238 238pu
D 68By01:
P A D I O A C T I V I T Y 24~Cm,a4u,z38Pu; z4oPu,236,234U. PHRVA 170 80
measured ax-coin, L - s u b s h e l l yields in decay to
A = 239 a39p u
D 75A!15:
R A D I O A C T I V I T Y z39Pu; source. IANFA 39 ~82
measured T,/a.
Absolute %wa-X counting, m a s s - s e p a r a t e d
A = 240
a~opu
D 68By01:
R 76Go13:
R A D I O A C T I V I T Y ~4~Cm,a4u,23ePu; measured =x-coin, L - s u b s h e l l yields in decay to 24oPu,236,~34U. PH~VA 170 80 NUCLEAR REACTIONS a39pu(d,pF),E=13 MeV; measured ,,fission probability, a4oPu deduced resonance,K,w. PYLBB 62B 280
A = 243 2%3Am
J 76Bo13:
NUCLEAR ~O~ENTS a43Am; measured isomer shift,Q ratio. c o m p o u n d s . JINCA 38 1291
M o s s b a u e r studies in Am
A = 2~4 24~Cm
D 68By01:
R A D I O A C T I V I T Y a~4Cm,a~u,23SPu; z4oPu,a36,234U. PHBVA 170 80
A zsocf
R 76Ya02:
2SOEs
D 76Ya02:
=
measured
=x-coin,L-subshell yields
in decay to
250
NUCLEAR REACTIONS z49Cf(d,p),E=-12 MeV; 2 4 9 B k ( ~ , t ) , E = 2 8 MeV; measured ,. asocf deduced l e v e l s , J , w , K . PRLTA 36 1125 R A D I O A C T I V I T Y ZSOEs; measured ET,I 7. 2socf deduced leve!s,K,J,~. PRLTA 36 1125
35
KEY
NUMBERS
AND K E Y
WORDS
A = 252 asaCf
R A D I O A C T I V I T Y 2saCf(SF); R A D I O A C T I V I T Y 2saCf(SF): R A D I O A C T I V I T Y as2Cf(SF) ; detector. PRVCA C13 1952 R A D I O A C T I V I T Y 2saCf(SF) ; 76Ya03: mass d i s t r i b u t i o n s , v - b a r .
D 75De~2: 75Te02= 76Wo0~:
measured stopping power in air. PZETA 22 526 measured f r a g m e n % - , 7 - f i s s i o n spectra. YAFIA 22 ~62 measured ~(ET,e | from fission fragments. Ge~Li) measure~ fission NUIHA 13% 119
36
fragment spectrum, p r e - , p o s t - n e u t r o n