The 1983 atomic mass evaluation

Nuclear Physics A432 (1985) l-54 0 North-Holland Publishing Company

THE 1983 ATOMIC MASS EVALUATION * (I). Atomic mass table A.H. WAPSTRA National Instiiuie of Nuclear Physics and High -Energy Physics, NIKHEF - K, PO Box 4395, 1009 AJ Amsterdam and University of Technology, De@ The Netherlands

and

G. AUDI Laboratoire Rene Bernas du CSNSM, Received

Britiment IO8, 91406 Orsay, France

13 July 1984 **

Abstract: This paper is tile first of a series of four. In it, a table is given to replace the 1977 atomic mass table. The differences from the earlier tables are briefly discussed and information is given of interest for users of this table. Part I1 of this series gives values for several derived quantities (decay, separation and reaction energies), part III shows graphs of several of them, and part IV gives full information on the procedures used in deriving these evaluated data.

Input data, primary, secondary and interpolated data

The input data in this evaluation are results of measurements of mass spectra and of nuclear reaction and decay energies. The last two are concerned with an initial and a final nuclide and one or two (very seldom more) reaction particles. With the exception of some reactions between very light nuclides, the precision of reaction and decay energies is much less than that with which the masses of reaction particles are known. Thus, these reactions and decay can each be represented as a link between two nuclides. Mass spectra, again with exception of a few cases between very light nuclides, can be separated in a class of connections between two nuclides or (new since 1977) three isotopes, and a class essentially determining an absolute mass value, see part IV, sect. 4. This situation allows us to represent the input data graphically in a diagram of (N - 2) versus (Iv + Z) as done in the diagrams presented in fig. 1. All input data are evaluated, i.e. calibrations are checked if necessary, and results * This work has been undertaken with the encouragement of the IUPAP Commission Nomenclature, Atomic Masses and Fundamental Constants (SUN-AMCO). l * The atomic mass table was received in February 1984. 1

on Symbols,

Units,

A.H. Wapstra, G. Audi / Atomic mass evaluation (I)

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Wapstra. G. Audi / Atomic mam evaluation (I)

are compared with other results and with systematics. As a consequence, several input data are changed or, even, rejected. All input data, including the rejected ones, are given in a table in part IV. Rejected data are not presented in fig. 1. As can be seen there, the accepted data allow calculation of the mass of many nuclides in several ways; we then speak of primary nuclides. The mass values in the table are then derived by least squares methods. In the other cases, the mass of a nuclide can be derived only in one way, from a connection with one other nuclide. For these secondary nuclides, the connection to that other nuclide is indicated in the “origin” column in the table. If better values are found for links to secondary nuclides, their mass values in the table can easily be improved (this is not so for primary nuclides). The diagrams in fig. 1 also show many cases where differences between atomic masses are accurately known, but not the masses themselves. Since we wish to include all available experimental material, we have in such cases produced additional estimated reaction energies by interpolation. As before, we found that such estimates could be obtained best in graphs of mass differences such as (Y- and P-decay energies and separation energies of two protons and two neutrons. Such systematics are presented in part III of this series. In the resulting system of data representations, vacancies occur. These vacancies we filled using the same interpolation procedure. All mass values dependent on interpolation procedures, and indeed all values in the tables of parts I, II and IV not derived from experimental data alone, have been clearly marked with a double cross symbol. In contrast to the 1977 tables ‘) values have now been added for the precision of such estimates. These values are not based on a formalised procedure, but on previous experience with such estimates. It should be pointed out that extrapolation of known systematic trends must be wrong if unsuspected new regions of deformation or (semi-) magic numbers occur. The organization and presentation of the present series of papers are very similar to those of the 1977 tables, but some rather fundamental differences are present in the method of the calculation. The first of them is the treatment of mass triplets *). Secondly, in the present calculation isomers have been used as independent variables; as a result, some care should be taken in interpreting fig. 1 and the “origin” column in the main table since they do not distinguish between isomers. This is not considered a serious defect; those readers who want to update such values should, anyhow, consult part IV which gives all the relevant info~ation. A third change is a different treatment {see part IV) of cases were two determinations yield somewhat discrepant data, improving a situation felt to be a defect in the 1977 evaluation 3). Finally, an analysis of Cohen and one of the present authors 4, leads to the conclusion that a vastly improved mass-energy conversion factor could be used. Fig. 2 shows the differences between the absolute mass values in the 1977 and 1983 evaluations for nuclides near the line of &stability. As discussed in part IV, we felt obliged to disregard a number of recent mass-spectroscopic measurements on Hg

A.H. Wapstra. G. Audi / Atomic muss evaluation (I)

20

11

AIM-A)=(M-A),ge3-(M-A),g7.,

keV 10

-30 80

100

120

140

160

180

200

220

240

260

AFig.2. Differences between mass values obtained in the 1977 and 1983 adjustments (for the most stable isotope at odd-mass numbers). The error bars refer to the 1977 evaluation. The errors found in the 1983 evaluation are indicated by the lines symmetric around A = 0. Crosses refer to a preliminary 1983 adjustment in which the absolute Hg doublets (see text) had been included.

isotopes; the crosses in fig. 2 show what would have happened if these measurements had been accepted. In both cases, the differences from 1977 values are larger than the errors assigned in 1977, but in a systematic way. In nuclear physics, mass differences between nuclides with small differences in A are of more use than the masses themselves. The regular course of A (M - A) as a function of A demonstrates that these mass differences did not change much. Note added in proof: Of course, several new data have become available since our calculation was completed. The only one to be mentioned here, in view of the relation between ground-state masses and excited states discussed in part IV, appendix A, is a measurement by L.G. Mann et al. (Conf. AMCO-7, Sept, 1984) which shows that the masses of i4’Gd, i4’Tb, i51Dy, i51Ho, 155Er, “‘Tm and ‘59Lu are 130 keV higher than the values given here.

References 1) 2) 3) 4) 5)

A.H. Wapstra and K. Bos, At. Nucl. Data Tables 19 (1977) 177; 20 (1977) 1 G. Audi, M. Epherre, C. Thibault, A.H. Wapstra and K. Bos, Nucl. Phys. A378 (1982) 443 Ref. I). p. 14 E.R. Cohen and A.H. Wapstra, Nucl. Instr. Meth. 211 (1983) 153 E.R. Cohen and B.N. Taylor, J. Phys. Chem. Ref. Data 22 (1973) 663; At. Nucl. Data Tables 18 (1976) 587

12

A.H. Wapstra, G. Audi / Atomic mass evaluation (I)

Table of constants

Used in this work or useful in connection

with results

M(‘*C)/12 = atomic mass unit (1.660566 + 0.000009) x 10 - % g 931501.6 + 2.6 keV 931501.2 * 0.3 keV * 1073 535.5 + 3.0 nu 548 580.26 f 0.21 nu 511003.4 f 1.4 eV % 1007 276468 & 12 “U M, 4001506170 + 50 nu n-H 782339 + 8 eV ssCl--‘Cl= -2 u+(2950110+110) nu S*,(W) =18890770 +100 eV II

1U lu lu 1 MeV M,

= = = = = = = = = =

The symbols “Cl and “Cl in the last line but one of the table stand for their masses. The first six items are derived from the work of Cohen and Taylor ‘), except the third one 4, which refers to energy * units calibrated as is usual in nuclear physics. The Cl mass difference helps in deriving mass-excess differences from Cl-type mass doublets giving a result Q:

In the case Z = Z’, the two-neutron

binding

energy in ‘+*Z

S2dA+*Z) = S,,(37Cl)-Q/c2, in which equation

Q/C* has to be expressed

in energy units.

can be derived

from

A.H.

Wapstra,

G. Audi

/ Atomic

mass eualuarion

(I)

13

Atomic mass table EXPLANATION N

Z A

EL 0 zPnN

OF TABLE

Number of neutrons. Number of protons. Mass number A = N + Z. Element symbol. (For Z > 103 see part IV, appendix Origin of values for secondary nuclides. Mass of ‘Z derived from mass of ” +‘+“( Z + z). Special notations: ITwhenz= O,n= + whenz=+l,n=-1; - whenz=-l,n=+l; ++ whenz=+2,n=-2; cpwhenz=-2,n=+l; +awhenz=+2,n=+2.

Mass excess

* Binding energy Beta-decay Energy

Atomic

B.22.)

0;

Mass excess [ M(in u)- A], in keV, and its standard error. In cases where the furthest-left significant digit in the error was larger than 3, values and errors were rounded off but not to more than tens of keV. (Examples: 2345.6 f 4.6 + 2346 f 5 but 2346 f 468 -+ 2350 rt 470.) In place of decimal points; values and error estimated from systematic trends. Total binding energy [ZM(‘H)+ NM(‘n)m(A, Z)], in keV, and its standard error. # : see above. Direction of decay, value and standard error in keV: forp-, Q-=M(A,Z)-M(A,Z+l); for p+, Q+=M(A,Z)-M(A,Z-1). For a few even-A nuclides near maximum B-stability decaying by both p- and 8’. the Q+ values are given as negative Q- values for the preceding isobar. X: see above. Atomic mass M and its standard error in pu. # : see above.

14

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A.H. Wapstra, G. Ad AELO

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15

A.H. Wapstra, G. Audi / Atomic mass evaluation (I)

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21

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640#

21

008730

50

20

999948

8

20

993842.8

2.1

20

997650.5

21

011716

2.2

22

010140

90

22

003030

30

18

21

991383.1

1.8

21

994434.1

1.8

21 22

999574.3 019370

1.6 100

16

N

A. H. Wapstra, G. Audi / Atomic mass evaluation (I)

Z

AELO

Mass excess

Binding energy

WV) 230

15

R

+

174606

14

9

F

+

3350

13

10

Ne

-n

- 5155.5

2.6

12

11

Na

- 9531.4

11 10

12 13

M&T Al p4n

- 5473.1

24F

+

6767

Beta-decay

CkeV) 161930#

620#

fl-

141OOc

600*

23

OlR740t

6701

175250

170

l.-

R510

170

23

003600

180

P-

4375.9 *

2.4

22

994465.4

2.X

22

989767.7

1.0

12240 4058.3

2s1.3

22

994124.4

23

007265

27

112973 5

2.6

.9

186567.1

1.0

1.5

181726.5

1.5

25

168704

9

Ne

13

11

Na

- R419.5

9

193526.6

1.0

12 11

12 13

W Al

- 13933.1

7

19R257.9

.x

-

10

14

si

-_

+

25F

++

4coc 10

8-

147OOt

400#

24

009390#

430#

10

8-

2470

10

23

993613

11

8-

5513.6 *

23

990961.4

23

915042.3

23

999941

4

24

011546

21

25

013460#

540#

24

997690

100

24

989953

7

24

985R37.4

.8

24

990429.0

1.2

183597

4

10755

19

172005

19

12540#

5OQ#

lR2200#

500#

100

196120

100

6

202537

6

9 10

Ne

14

11

Na

- 9359

13 12

12 13

Mg AI

- 13192.5

.7

-p

- 8915.4

1.1

11

14

B

+3n

-2160

3827

10

2055XR.6 200529.2 1 X7004

:+ +

p-

14700s

;’ .R

10

7200 3834 * +

1.1

13878 10810

:+

.6 20 4

510# 90 6

4277.1

.R

1.0 .R

12743

10

25

004109

11

16

10

26 Ne

440

70

201590

70

B_

7350

70

26

ooo470

RO

15

11

Na

- 6906

16

208156

16

8-

16

25

992586

18

14 13

12 13

% Al

- 16214.0

.8

216681.5

.8

93OR *

25

9R2593.7

-

- 12209.9

.R

211R95.1

.9

25

9R6R92.2

12

14

Si

+ll”

25

992330

11

15

P

-

17

10

27 Ne

16

11

Na

15 14 13

12 13 14

Mg Al Si

_

12

15

P

p4n

- 750

17

11

2R Na

16 15

12 13

Mg Al

14

14

13

++

4M)#

191R39

4

15

1.6

177920~

55

16

;+ +

25

10

R750#

mass

(PU)

170

14

- 5950

Atomic

620 C

15

-nn

energy

WV)

+

- 7144

3

206047

300#

B’

184CQ#

3000

26

012080#

320#

6750f

4w+

203350#

400#

8-

12400X

400#

27

007250#

430#

- 5650

40

214970

40

8-

R940

40

26

993940

50

8-

2610.6

26

984341.2

26

981538.6

R

26

986703 9

.8

26

999190

40

150

14586.2

.9

223125 1

- 17196.8

.7

224953.4

.R

12385.3

.7

219359 5

.R

40

140

10

206950

40

218530

140

.7

232678.5

.R

Si

- 21492.4

.6

2365311.0

.7

15

P

- 7161

4

221424

4

12

16

s

4130

160

209350

160

1x

11

29 Na

2640

150

222830

150

17

12

Mg

-3n

- 10728

30

235410

30

16

13

Al

--nn

- 18215

5

242114

5

14

15

P

13

16

s

-15018.X

-P +3n

- 16950.5 -3160

.7

1.8

239285.1

1.9

224710

250

241850

210

- 15R90

40

247860

40

16

14

Si

-24433.2

1.7

250613.3

14

16

s

17

Cl

-

20

11

31 Na

19 18

12 13

Mg Al

+ +

-15090

17

14

Si

-n

- 22950.2

.7

262209.9

.8

16

15

P

- 24440.7

.6

262911.1

.7

15

16

S

+n

- 19045.2

1.5

256740.2

1.6

14

17

Cl

p4n

- 7070

-nn

- 14063

3

243687

3Oi3#

224000#

11810

580

- 3790#

410# 70

4R40#

50

3

976927.1

27

992313

4

2R

004440

170

.7

002R30

160

2R

9RR480

30

f‘-

3680

5

28

980446

6

2R

976494.9

2R

981803.0

2R

996610

l

B+

4944.5

6790 R540 t

z++

1.7

210 40

OO8RoO

260

990230

230

29

982940

40

29

973770.1

.7

29

978306.7

1.8

984903

30

005190#

320#

15610#:

710#

31

012680

620

113009

4OOt

30

995930#

440#

30

983800

70

30

975362.1

30

973762.0

.6

30

979554.3

1.6

30

992410

580

fi-

2446209

410#

fl-

255140

70

B’

30 29

29

229800

B+

50

1.6 3

18900#

;’

.7 1.9

3OOc

4225.8 6144

8+

50

.R

27

29

300x

243980

981910.2

30

1.7

13

2.3

27

150

;I

-P +IllI

998780 983876.R

7490

.7

255621.5

27 27

13360

240

225340

210

1.0

B_

17300

250

- 9100

- 20207.4

160 4

p-

8200

% Al P

11290 14332

2.0 .3

50

11

15

4641.8 1831.8 *

140

13790

12 13

15

13880

40 .25

8+

19

.6

11630 4811.51

50

1R 17

30 Na

;I

8-

245011.9

50

z++

z++

.6

-21895.0

.6

l

8-

- 16850 6

Si

8 3

lR6R70#

2.2

14

R

300r

231629.1

I5

3 .15

3

2.1

--

4004.05 5066

11260#

-1140 + -n

z++

78M) 1490.5 *

70 .4

5395.6

1.6

11980

50

3

.8

50

17

A. H. Wapstra, G. Audi / Atomic mass evaluation (I)

N

Z

AELO

-nn

Mass excess

Bmding energy

(kev)

(keW 740

233150

740

B-

1400

32

017750

800

15x0

250660

1580

B-

9410#

161O)t

31

99X100

1700

8-

12900#

3OO)t

32 Na MX Al

+

-lllXO#

1X

14

Si

-nn

- 24080.8

17

15

P

16

16

S

15

17

Cl

-

- 13330

14

1X

Ar

--

-21x0

259290#

300#

3006

2.4

271411.9

2.5

-24305.X

6

270X54.6

.7

-26016.18

24

2717X2.6

.5

21450

x

2SU314

x

50

2463130

50

1140

1140

236300

1x300

;:

1710.3 225.0 1 +

31

997660

50

33

023030

1220

8-

17520#

39306

5006

253040#

5OQ#

B-

1320#

640 d

33 004220#

54Ot

_ 9270#

400#

2654606

400#

pm

113OOtt

400#

32

9YCO50#

430#

50

275970

50

Pm

5770

50

32

977920

32

971725.2

32

97145X.42X

32

977451 5

32

9X9930

30

36SO#

34

028600

3x30

910#

34

007450#

SXO#

33

995320#

540#

33

97X680

320

33

973636.2

33

967866.650

33

973762.X73

33

980269

13

Al

+

19

14

Si

+

- 20570

1x

15

P

+

-2633X.0

17

16

S

16

17

Cl

-p

15

1x

Ar

+3n

- 93x0

30

261650

30

8’

11620

23

11

34 Na

-no

26640

3570

239lUO

3570

fl-

19700s

22

12

Mg

++

6940#

7606

25X1006

760#

a-

113001f

21

13

Al

++

- 4360#

500s

268610#

500#

B_

15500#

20

14

Si

+

- 19860

300

283330

300

19 1X

15 16

P S

+Pn

- 24557.9

-

35 Mg

+ +

1.5

2X095X 1

1.6

- 26586.51

.21

280424.3

4

-21003.9

7

274059.4

.x

2X7249.4

1.3

- 29932 25

.21

291X41.4

.4

- 24439.92

27

285566 7

.5

- 18379

1.2

27X724

3

1356Ob

690#

650s

2595506:

650#

pm

15OOO#

8106

35

014560#

510#

2737706

510#

fi-

13100#

6406

34

9984606

540#

- 14540f

4106

2X6080t

410#

B_

104car

400#

34

YX43YOD

4404

X0

295700

80

F

3910

70

34

973230

34

969031.832

34

968852.728

34

975256.2

20

34

9XXOll

22

720#

36

004200#

650#

35

986300#

430#

35

977570

60

15

P

+

24940

16

S

-”

28846.X9

18

17

Cl

17

18

Ar

-

2304X.X

16

19

K

p4n

1116X

23

13

36 Al

22

14

Si

++

- 127606

21

15

P

Zp-n

- 20890

60

20 19

16 17

S Cl

+P

1x

18

Ar

17

19

K

-

17426

8

293131

x

16

20

Ca

4n

- 6440

40

281360

40

5006:

294680#

300s

306000#

-29013

-n

20

17

Cl

19

18

Ar

1X

I9

K

11 20

24

14

23

IS

Ca

38 Si P

22 21

16 17

s Cl

20

1x

19

+ +

.21

29X827.4

5

07

29X211.9

4

291464 6

13

72

39106

1.3

P-

166.84 *

8’

5964.9

20

8’

11X81

2764906

600#

8-

166X0*

2923XO#

400#

20

278802

6006: 400s

299720

60

;’

9780 Rl30#

20 1.3

4004 60

80 .229 .069 14

30664.44

.25

308716.3

.4

fl-

1142.29

.25

35

967080620

,271

- 29522.15

07

306791.7

.4

B-

.26

35

96X306.90X

.076

- 30231.39

.27

306718.6

5

709.23 .

35

967545519

-7GaO# - 191006 26896.59 -31761.75

-P +3n

,287 3

- lMO#

19

S

,223

320#

20

16

3 17

9YR410#

+

21

6061 5492.34

1.3

33

8

+ +

:++

820#

300#

14

+

3001.2

l

R

16900s

21

P

4700 5374 3

30

.229

8’

++

37 Si

;’

.7

1.6

300#

Al

15

5582.6

50

26104OC

12

14

15

300#

13

23

Bf

24X 5 *

- 14XOb

23

22

Pm

12406

3

22

+ +

,252

50

20

K

972070.69X

11150

++

19

.6

31

;+

MX

15

973906.8 x

33 Na

+nn

2.6

31

985690

11

Ar

320#

31

12

1X

9XRcoO# 974148.3

x

22

16

2.4 .6

31 31

12687

21

Cl

mass

(Pa

16530

11 12 13

1’1 17

Atomic

energy

(kev)

- 1770

21 20 19

-nn

Beta-decay

R

35

981293

x

:+

10990

40

35

993090

40

SOQ#

pm

121Ooi

5X0*

36

992490#

540#

300f

8-

7X00*

300#

36

979500#

320#

B-

4865.16 *

36

971125.542

281

36

965902.619

,112

.26

313019.8

.4

.lO

317102 6

4

- 30947.9

.6

315506.4

.7

1.4

308575.6

1.5

296154

22

-4660X

6006

+

-14660#

4OOt

+ -n

- 26862

22

8’

966776.3 9733770

.6

36

9X5873

24

1.5

B_

loooo#

720#

37

995ooo#

640#

8-

12200#

400#

37

9X4260Y

430#

12

8-

2936

12

37

971162

P-

4916.5

37

96X010.527

37

962732.5

.9

37

969080.4

1.0

.4

AI

- 34714.7

.8

327344.6

9

19

K

- 28801.7

.9

320649.2

1.0

18

20

Ca

+nn

313125

5

17

21

SC

-

294740#

3OOL

300*

22

36 36

600#

323210.5

-446oc

11640

1.5 .6

400x

14

5

614X.5 813.9

309640 tf

-2979X.23

- 22060

:+ +

.24

3004200 321057

12

,291

12X05

- 24799.4 - 13160

+

.8

l

:+ + 8+

6742 5913.0 17600#

5 .7 3009

37

976318

37

9952lOe

13 ,155

5 3206:

18

N

Z

A.H. Wapstra, G. Audi / Atomic mass euahation (I) AELO

Mass excess

Binding energy

(kW

Bela-decay

WV)

energy

Atomic

WV)

mass

(ru)

24

15

+_(

- 12300x

4OQ#

315350#

400#

B-

10700#

450#

38

986790#

430#

23

16

s

+

- 23000#

200#

325270#

2004

5-

6800#

2OQc

3x

9753104

220#

22

17

Cl

+

-29804

19

331287

19

3R

968005

20

21

1R

AI+

- 33242

333943

5

3X

964314

6

20

19

K

- 338066

1.1

333725.6

1.2

3R

963707.4

I.2

19

20

Ca

-

- 27276.0

2.1

326412.6

2.1

38

970718.2

2.3

18

21

SC

-

- 141RO#

200#

3x

984780#

220s

- 7620#

500#

500#

39

991820#

540#

500

39

975820

40

39

970440

540

500 .6

39

962383.7

.4

39

%3999.2

1.2

39

962590.6

1.3

39

977963

5

39

990270

12

39P

+

312530#

2wt

318740#

;’

3438 565 * +

6530.6

;+

131c!o##

25

15

40 P

soo+

8-

149aO#

24

16

s

4p4n

- 22520

40

332860

40

I+-

5020

23

17

Cl

+

- 27540

500

337090

500

22

18

AI

- 35039.6

1.3

343812.3

1.3

;’

21

19

K

- 33534.R

1.1

341525.1

1.2

8-

20

20

Ca

- 34846.9

1.2

342054.9

1.3

19

21

SC

-

- 20527

4

326953

4

18

22

Ti

--

-9064

11

314707

11

41 S

+ +

- 17870$#

3OOa

336280s

300#

+

-27400

160

345020

160

25

16

24

17

Cl

23

18

AI

- 33067.4

1.4

349911.4

1.4

22

19

K

- 35559.7

1.1

351621.4

1.2

21

20

Ca

- 35138.3

1.2

350417.7

1.3

20 19

21 22

SC Ti

1.5

343140.4

-2X643.4

:+ +

/-;I ;+ +

- 15700

40

329410

40

8+

26

16

+ +

- 16420#

400#

342900#

400#

8-

17

Cl

+

- 24420#

200*

350120#

200#

fl-

24

18

AI

-nn

- 34420

40

23

19

K

-n

- 35022.7

1.5

359155.8

1.6

22

20

Ca

- 38547.8

1.2

361R9R.5

1.3

21

21

SC

-

- 32124.1

1.3

354692.4

1.4

20

22

Ti

-pp

- 25122

6

346908

6

19

23

v

-

26

17

43 Cl

3p2n

- 23130

25

18

Ar

2p3n

- 31980

24

19

K

+

- 36592

23

20

Ca

22 21

21 22

SC Ti

20

23

v

- 8220#

359340

1.R 200x

1312.1 I 14320 11463

9530#

12 4

340#

5670 2492.3 *

160 .7

6495.0 421.3

1.0 .4

1.6

-P -

25

42 S

-:::.8

18 5

12940

8OlXl# loooo# 3525.1 6oo

329230#

300#

8’

60

356900

60

70

364970

70

10

368797

10

6423.7 7002

9ROR209

320#

970590

170

40

964501.0

40

961825.4

1.2

40

962277.7

1.3

I.5

40

%9250.3

40

983150

40

4509

41

9R2370f

430#

200#

41

97378Of

220#

41

963050

40

41

962401.9

1.6

41

958617.6

1.3

41

965513.7

1.4

41

973031

6

401.2

l

;+ +

40 40

40

40 ;’

I.4

5 .4

1.7

169009

3ooc

41

991170#

320#

8-

R840

90

42

975160

60

8-

4610

70

42

965670

80

8-

1817 *

10

42

960717

11

42

958766.2

1.3

2.0

42

961150.1

2.5

- 38409.4

1.2

369X31.4

13

-P -n2p

- 36188.7

2.3

366828.5

2.4

B’

- 29321

359179

7

;+ +

-

- 17920s

347000#

200#

2220.6 6868

7

42

968523

8

11400*

2rMJ#

42

980760#

22OY

32OC

27

17

44 Cl

++

- 20010#

361R50#

3co#

p-

12250f

300#

43

97X520#

26

18

Ar

+a

- 32262

373320

20

o-

3550

40

43

965365

22

25

19

K

+

- 35810

376090

40

8-

5660 *

40

43

961560

40

43

955480.6

1.4

43

959403.9

2.4

959689.7

24

20

Ca

- 41469.9

380963.3

1.4

23 22

21 22

fk Ti

-P -a

- 37815.4

376526.5

2.3

8’

- 37549.1

375477.9

1.4

;+ +

21

23

v

-

- 238OOf

360950#

lOO#

349580

180

_20

24

Cr

27

18

45 AI

26 25

19 20

K Ca

24

21

SC

23

22

Ti

22 21

23 24

v Cr

--

- 13220

3654.5

2.0

137506 266.3

1OOr 2.1

43 43

974450#

llO#

8’

10580s

210t

43

985810

190

1.5

+n2p

- 29720

60

378850

60

B-

6RW

60

44

%I?090

60

+P

- 36611

11

384958

11

8-

4202

11

44

9606%

11

44

956185.4

44

955910.0

1.4

44

958124.3

3.0

-40813.4

1.3

388378.2

1.4

- 41069.9

1.3

387852.4

1.4

-

- 39007.3

2.8

385007.4

2.8

P4n --

- 31875 -19460

17

377093

17

150

363900

150

8-

256.5

1.0

l

8+

5’ 8’

2062.6

2.4

1.4

7132

17

44

965781

18

12410

150

44

979110

160

A.H.

N

Z

AELO

19

Wapstra, G. Audi / Atomic mass evaluation (I)

Mass excess

Binding energy

(keV)

(keV)

Beta-decay

Atomic

energy

(keV)

mass

(CU)

28

la

46 Ar

+pp

- 29720

40

386920

40

5700

40

45

968090

40

27 26

19 20

K Ca

+Pn

- 35420

16

391838

16

7718

16

45

961976

17

- 43138

4

398774

4

fl-

4

45

953689

4

25

21

SC

-n

-41759.2

1.3

396613.1

1.4

8-

45

955170.0

1.4

24

22

Ti

-44125.7

1.3

398197.2

1.4

45

952629.4

1.4

23

23

v

-

- 37075.3

1.4

390364.5

1.5

45

96019X.3

22

24

Cr

-

- 29472

20

381979

20

20

45

968360

22

21

25

Mn

--

-12470#

400X

3642001

4OOt

4OOc

45

986610#

430#

a

46

961677

9

4

46

954543

4

1.9

46

952408.8

2.3

46

951764.0

1.1

46

954906.4

;+ +

17000#

6645 1988

19

- 35698

a

400188

a

20

Ca

- 42343

4

406051

4

;I

26

21

SC

-44331.3

2.2

407256.5

2.2

B-

- 44931.9

1.1

407074.X

1.2

- 42004.8

1.3

403365.3

1.4

25

22

Ti

24

23

V

23

24

22

25

Cr

-P +3n

- 34554

Mn

-

K

+

7603 7050.4

8’

27

+p

.7

2366.5 *

.6

2X

47 K

-1379

600.6 l

8’

2927.1

1.0

14

395132

14

lJ+

7451

14

46

962905

- 22650#

200t

382450#

200#

8+

11900#

2OOt

46

9756aOL

- 32124

1.5

1.4 15 220#

29

19

24

404685

24

fl-

12092

24

47

965514

26

28

20

Ca

-44216

4

415995

4

B-

278

5

47

952533

4

27

21

SC

- 44493

5

415490

5

8-

5

47

952235

6

26

22

Ti

- 48487.1

1.1

418701.4

1.2

3994 *

47

947947.3

1.1

25

23

V

-44472

3

413904

3

47

952257

3

24

24

Cr

7

411468

23

25

Mn

48

49 K

-42818

7

a

47

954033

397090s

lOO#

8’

13600#

1006:

47

968630#

llO#

400

411420

10500

400

48

966940

430

421141

400 4

p-

4

B-

5263.4

2.0

48

955672

4

B-

2004

4

48

950022

4

48

947871.1

1.1

.a

48

948517.2

1.4

2.8

- 29220#

lOOI

+

-30790

-n

-41291

-

30

19

29

20

Ca

28

21

SC

- 46555

4

425623

4

27

22

Ti

-48558.1

1.1

426843.8

1.2

26

23

V

- 47956.3

1.3

425459.5

1.4

25

24

Cr

+n

- 45328.9

2.7

422049.8

24

25

Mn

p4n

-37611

23

26

Fe

--

- 24470

30

20

50 Ca

-nn

29

21

SC

-Pn

28

22

Ti

27

23

V

+n

- 39571 -44538

l

z++

2627.4 601.9

2.7

48

951337.8

B’

7718

24

48

95%23

26

160

39%30

160

8’

13140

160

48

973730

170

a

427493

a

8-

4967

17

49

957519

9

16

431678

16

16

49

952186

17

49 49

944792.1 947160.9

49

946046.4

437783.2

1.2

;’

434794.4

1.6

8-

1.6

435050.2

1.6

1.6

426635.9

1.1

-49219.7

1.5

24

CI

25

Mn

-

- 42626.0

24

26

Fe

4n

- 34470

31

20

51 Ca

-3n

30

21

SC

- p2n

29

22

Ti

-n

- 49721.2

1.4

444155.5

1.5

28

23

V

- 52199.7

1.5

445845.8

1.6

27

24

Cr

- 51448.3

1.6

444312.0

1.6

26

25

Mn

1.5

440321.0

25

26

Fe

+3n

-40218

24

27

co

-

-;;;.5

1.5

1038.2

1.7

.4

417700

60

;+ +

8150 7631.9

-35940

50

431930

50

;’

6507 7280

- 43220

20

438431

20 8-

2472.6

431517

15

- 27420#

200#

4179403

2cQ#

300#

443320#

300# 7

31

21

++

-4C040#

30

22

Ti

-nn

-49464

7

451964

29

23

V

-n

- 51439.6

1.8

453157.0

1.9

28

24

CI

- 55415.2

1.6

456350.3

1.7

27

25

Mn

- 50703.4

2.4

450856.1

2.5

26

26

Fe

-

-48331

27

co

-

- 34300#

2.9

12 17 1.7

49

954239.5

60

49

962990

60

50

50

961420

50

20

50

953602

22

50

946616.1

50

943%1.7

1.7

50

944768.4

1.7

1.7

l

.9

1.7

1.5

:+ +

3208.7 751.4

50

948213.0

;+ +

8022

15

50

956823

16

12800#

zoo*

50

970570#

220#

9430#

300#

320#

.3

1.6

15

25

.9

l

60

-48239.7

a

24

25

+pn

4014.9 1654

413550

26

52%

;+ +

24

- 51426.2 - 50257.9

2.9

;I 8-

51

957020#

1975

7

51

946898

a

3975.7

1.7

51

944777.8

2.0

51

940509.8

1.7

51

94556X.0

2.6

l

8+

1.7

4711.8

2.1

12

447702

12

8’

2372

12

51

948114

13

100*

432890#

lOo#

8’

14030#

lOO#

51

%3180#

110x

20

N

A. H. Wapstra, G. Audi / Atomic mass evaluation (I)

Z

A

EL

53T1

0

Mass excess

Binding energy

(keV)

(keV)

-46830

+P

- 51x47

22

30 29

23 24

V Cr

28

25

MIl

27

26

Fe

in

26

21

co

p4n

- 42640

1X

449299

18

x304

25

28

Ni

-

- 29410

180

435290

1X0

13230

32

22

54 Ti

+ +

- 45430#

3ooc

464070#

?OO#

4460#

31

23

v

+

- 49889

15

467750

15

7042

30

24

Cr

29

25

Mn

2X

26

Fe

21

21

co

-

26

2X

Ni

4x1

- 39210

+

-49150

-n

- 55105.9

1.6

480255.1

1.7

mp

loo 3

energy

457400

100

461636

4

5020 3436 *

masr

(UU) 100

52

949730

110

3

52

944340

4

52

940651.3

1.7

- 55283.4

1.6

464289.X

1.6

-546X7.2

1.6

462911.3

1.7

596.1

.9

52

941291.3

17

50943.6

2.2

45X385.4

2.2

3743.6

1.9

52

945310.2

2.3

1X

52

954225

1Y

1RO

52

96X430

190

300s

53

95123Ott

32Oaz

15

53

946442

lb

- 56931.0

1.6

47400X.X

1.6

- 1377.1

10

53

93xxx2.5

17

- 55554.0

1.X

471X49.4

1.9

1.2

53

940360.X

20

- 56250.8

1.4

471763.9

1.5

b9b.X *

53

9396127

1.5

- 48009.3

1.5

462740.0

1.6

X241.5

53

Y4X4bO 3

53

957910

50

110

50

loo

453160

50

475080

100

32

23 24

Cr

30

25

MIl

- 57709 2

1.5

4X2076.0

lb

29

26

Fe

- 57417.4

1.4

481061.9

1.5

231.7

2X

27

CO

- 54026.0

1.5

476X2X 1

1.6

3451 5

27

28

Ni

+3n

- 45330

11

2b

29

cu

-

~31630#

300#

467350

.b 50

RX(W)

31

5bV

Atomic

(keV)

31

55v

+

Beta-decay

5960

loo

2603.2 *

1.7

54

947240

54

940x41 .R

17

54

93x047.1

1.6

.7

54

93X295.9

1.5

.4

54

Y42001 2

.b

Lb

11

X696

11

54

951336

12

452RlOd:

3OOt

137006

3(x) *

54

9660404

3.?0*

4x01 lO#

300#

91XOf

3Gaa

55

9505wtF

32OP

10

1617

55

940643

10

55

93XYOb.X

55

9349393

lb

55

Y3YX41.2

27

33

23

++

-46110#

3cnc

32

24

Cr

-nn

- 55291

10

31

25

Mn

-n

- 56908.4

1.5

4X9346.6

lb

30

26

Fe

- 60604.1

1.5

492259.9

29

21

co

-

- 56038.0

2.5

486911.5

-PP -

- 53902

11

11

213b

11

55

942134

- 38500#

200#

4678101

200#

154wtf

2OO*

55

95X6700

2200

+

- 526900

2cQ#

493980#

200x

2ooa

56

Y4344Oe

220s

-nn

- 574RX

3

56

93X2X5

4

56

935395.X

lb

2X

2R

N1

21

29

cu

33

24

57 Cr

32

25

31 30 29

26 21 2R

Mn FC

-6017R

- 59342.5

CO Ni

9

+n

- 56077.4

488512

4x3993

3

491997

1.5

499906.1

1.5

49X287.4

3.0

494240

.Y

1.6

3695.7 *

2.6

4566.1

2.0

3 1.6

X36.4

.5

56

936293.7

1.7

3265.1

2.6

56

939799

3

3

2X

29

cu

-

- 473RO#

27

30

Zn

--

- 32610

130

300#

469210

130

5X Cr

+ +

- 52050#

300#

5014206

3000

+

- 55830

30

504410

30

34

24

33

25

Mn

32

26

Fe

- 62152.2

1.5

509950.x

1.6

31

27

CO

- 59844.3

l.R

506860.5

1.9

30

2x

Ni

- 60225 1

1.5

506459.0

1.6

29

29

cu

-

- 51662.4

2.5

497114.0

2.5

28

30

Zn

--

-42210

34

25

+

- 55477

33

26

Fe

- 606619

15

516531.X

1.6

32

27

CO

- 62226.5

1.5

517314.1

1.6

31

2x

Ni

-61153

15

51545R.9

30

29

cu

-p

- 56353.0

2.1

509R76.0

29

30

Zn

-

- 47260

5Y Mn

29

6

512129

40

5OOaa

8700# 14770#

37X0* 6319 -230X.0 3RO.R * X562.6

26

57

954690

5R

940440

58

934x713

5X

933197.6

1.6 16

17

949270

40

loo 4

59 59

943210 934078

110 4

26

519938.1

2.6

30

939503.0

1.6

11

110

5R

1.6

514997

1.6

944538.5

5x

524806.1

11

935346.2

57

1.4

526847.4

- 54185

57 19

40

1.5

- 58343.8

2.0

9090

1.5

-PP

935755.0

4800.6

- 64470.7 -

57

2.2 40

CO

ZII

lb

1.2

934349.4

Ni cu

9332773

5x

240

30

57

.S

8510

29

30

12

1072.9

4

30

320t

Y40060

1.6

100

31

94412Oe

57

6

52534X

28

57

30

29

517620

21

3OOa

1564.7 .

4

32

140

5185

100

33

964990

29

-52900

Fe

3?0#

56

100

- 61407 - 61647.1

60 Mn

949140s

330*

9460

+

25 26

300s

56

100

-nn

35 34

12

1.6

4X4760 #

486870

4XOO#

1.7

2691 *

300#

100

9

.ll

2823.64 l

6126.9 4159

2.1 11

22

59

933X19.6

1.6

59

930788.4

1.6

59

937365.X

59

941830

2.7 11

21

A.H. Wapstra, G. Audi / Atomic mass evaluation (I)

N

z

A

EL

0

Mass excess

530932

20

26

61 Fe

+n2p

- 58919

34

27

co

p2n

- 62897.1

1.7

534127.4

1.X

33

2R

Ni

- 64219.6

1.5

534667.6

16

32

29

CU

31

30

Zn

c3n

- 56343

16

1.8

531646.8

30

31

Ga

_

-47540t

400s

36

26

62 Fe

tpp

- 58896

15

538980

15

35

27

co

+

-61424

19

540725

19

34

2R

Ni

33

29

cu

-

20

525226 515640#

Atomic mass

WV)

(keW

35

-61981.2

Beta-decay energy

Binding energy

Rev)

1.9

3978 1322.6 * B’

- 66145.1

1.5

545265.0

1.6

- 62191

5

540534

5

2238.4

9 1.1

60

93674X

60

932477.8

22 1.9

60

931057.9

1.6

60

933461.0

563X

16

60

939514

;+

RRW#

400*

60

948960#

61

936173

16

;:

5322 2521

‘61 934060

20

16 400*

(WU) 20

+

24 19

3949

430#

61

928346.1

16

5

61

932586

5

l

8’

2.0 18

32

30

Zn

+nn

-61110

10

538124

10

S’

1627

11

61

934332

11

31

31

Ga

-

- 51999

28

528171

28

P’

9171

26

61

94417X

30

- 55190

60

543350

60

B-

6650

60

62

940750

60

-61839

20

549212

20

P-

3614

20

62

933614

22

62

929669.7

1.7

62

929598.9

1.1

37

26

63 Fe

Zp-

36

27

co

+p

n

35

28

Ni

- 65512.8

1.5

552103.5

1.6

34

29

CU

- 65578.1

1.5

551387.1

1.6

- 62211.6

2.2

65.92

15

l

33

30

ZIl

8’

3367.1

62

933213.6

32

31

Ga

-

-56690

100

540940

loo

8’

5520

1W

62

939140

110

31

32

Ge

-

- 41390#

320#

530X506

320#

8’

9300s

300*

62

9491701

3404

+

- 59791

20

22

547237 6

2.3

8-

37

27

64 Co

36

2X

Ni

- 67098.0

1.6

561160.1

17

;’

35

29

CU

- 65423.5

1.5

559303.2

1.6

8-

34

30

Zn

- 66001.1

1.7

559099.1

l.R

33

31

Ga

-

- 58831

4

551152

4

32

32

Ge

-

- 54430

250

545960

250

3X

21

65 Co

3p2n

- 59160

50

562680

50

37

28

Ni

-n

- 65124.8

1.6

567858.3

1.7

36

29

CU

-67261.0

1.8

569212.2

1.9

35

30

ZII

-65910.2

1.8

561019 0

1.9

34

31

Ga

-p

- 62654.4

2.0

563040 8

2.1

33

32

Ge

‘p

-56410

100

556020

100

32

33

As

-

-413101

410%

54613ott

410#

3R 2X

66 Ni

- 66028

16

555236

576833

1.6

20

16

z++

;’ 88+ + :+ +

-::;:5

63

9351112

20 4

63

921967.9

17

.x

63

929765 6

1.7

63

929144.8

1.9

63

936836

4

63

941570

270

64

936490

50

64

930086 2

1.7

64

927792 9

2.0

64

929243 0

1.9

64

932738.3

2.1

64

939440

110

64

94921Oe

440#

65

929116

65

928872.2

65

926034.7

1.1

65

931590

4

578.2 * 4410 1165

250 4

2136.2 5970 *

50 1.1

3255.R 1350.8

1.2 .6

91009 6240

8-

227

P-

2643.1

4OQf 100

16

37

29

CU

- 66255.6

1.9

576278.1

1.9

36

30

Zn

- 68898.7

1.6

578138.9

1.7

35

31

Ga

-

- 63724

3

572182

3

8’

5175

3

34

32

Ge

-

- 61622

13

569297

13

z++

2102 9550

50 13

33

33

As

-

- 52070

50

558960

50

39

28

67 Ni

+n2p

- 63742

19

582619

19

8-

3561

38

29

cu

+

- 67303

8

5x5397

8

P-

37

30

ZXI

- 67879.3

1.6

585190.9

1.7

576 *

36

31

Ga

- 66878.4

1.7

583407 6

1.8

8:

1cml.O

35

32

Ge

;+

6010 4222

34

33

As-

33

34

se

40

28

68 Ni

39 38

29 30

cu Zll

+

37

31

Ga

-

36

32

Ge

35

33

As

-

34

34

se

--

-n2p --

- 62656

5

578403

5

100

571610

100

-468604

400#

561040#

400#

8’

97909

- 63482

18

18

-65560

50

8B-

2070 4450

590430 591720

50 1.8

13

l

-56650

2.3

18 2.0

65

933847

14

65

944100

60

21

66

931510

20

R

66

921747

9

66

927129.1

1.7

66

928203.6

l.R

66

932737

5

66

939190

110

4106

66

9497OQ#

430#

60 50

67 67 67

931850 929620 924845.9

19 60 1.8

67

927981.8

2.2

67

9280%

1.3 100 5

- 70006.1

1.7

595389.0

- 67085.0

2.1

591685.6

2.1

- 66978

6

590797

6

-58880

100

581910

100

8100

100

67

936190

110

- 5408OY

300#

576330#:

300#

4800s

320#

67

9419504;

3208

l

;+ +

2921.1 107

6 1.2

7

22

N

2

A.H. Wapstra, G. Audi / Atomic mass evaluation (I)

AEl.0

Mass excess

Bind@

WV) 41

2x

69 Ni

40

29

cu

39

30

38

energy

Beta-decay

WV)

8-

5280

;’

2676 905.5

2p-n

-60460

200

595480

200

+p

- 65741

a

599977

8

Zn

- 68417.0

1.8

601X71.2

1.9

31

Ga

- 69322.5

2.9

601994

3

37

32

Ge

- 67097

4

598987

4

36

33

AS

- 63080

30

594190

30

4020

35

34

Se

40

586620

40

6790

34

35

Br

-

- 4679Q#

41

29

70 cu

+

- 62982

20

605290

20

40

30

Zll

- 69560

3

611086

3

39

31

Ga

i 68905

3

609649

3

38

32

Ge

- 70561.5

1.5

610522.5

1.7

37

33

As

- 56290

-

- 64340

5oox

20

57634O#

603518

energy

Atomic

WV)

5OOX

20

200 2.x a

* 2225.3

9500 #

6578 - 654.8

mass

(WQ 68

935090

210

68

929425

9

68

926551.9

1.9

68

925580

3

68

927969

4

30

68

932280

30

2.5 40

68

939570

40

5ooP

68

949770#

54att

20

69

932386

22

1.6

69

925325

4 3

8-

1656 *

3

69 69

926028 924249.7

;+ +

6222 2750

200 20

69

930929

22

69

933880

220

8+

104Gu#

3ooP

69

945050#

390#

1.6

36

34

Se

-

-61590

200

599990

200

35

35

Br

-

-51190#

360#

588ROOX

3mt

+

- 62820#

3oott

6132008

3oo#

4500#

3oot

70

932560#

32OS?

-n

- 67322

11

616919

11

2819

11

70

927727

11

70

924700.5

2.5

70

924953.5

2.0

70

927114

70

93227Ott

42

29

71 cu

41

30

Zn

40

31

Ga

- 70141.5

2.3

618956.2

2.4

39

32

Ge

- 69905.9

1.8

617938.2

2.0

38

33

AS

- 67893

4

615143

4

37

34

Se

-

- 6309O#

36

35

Br

--

35

36

Kr-

42

30

72 Zn

41

31

Ga

40

32

Ge

39

33

As

3x

34

Se

+

-

l

;+ + +

2oo#

6095606

- 5659O#

3oo#

602280#

3oo#

;+

- 464908

42OC

591400#

42Off

8’

200s

- 68134

6

625802

6

- 68591.2

2.5

625477.3

2.6

- 72583.6

1.5

628687.3

1.7

- 68228

4

623550

4

- 67897

12

622436

12

37

35

Br

--

- 590304:

2oo#

6127901

2oo*

36

36

Kr

-

- 53970#

2404

6O6950t

24o#

+n2p

- 65410

40

631150

+p

- 69705

6

634663

2013 235.7

2cQa

6500#

36OC

70

9392500

320X

3c!o*

70

95oo90#

46o*

457 3992.4

+

+

5

4aoor lOloo#

z+

4 1.6

4355 331

220#

6

71

926856

7

2.3

71

926364.9

2.7

71

922078.9

1.6

71

926755

5

71

927110

13

13 4

88706

2ooc

71

936630#

220#

5060

140

71

9420608

260#

40

4290

40

72

929780

40

6

1589

6

72

925169

7

72

923462.6

1.6

72

923827

4

43

30

73 Zn

42

31

Ga

41

32

Ge

- 71294.7

1.5

635469.7

1.7

40

33

AS

- 70955

4

634348

4

;+

;+

+

2740 339

10 4

39

34

Se

- 68215

11

630826

11

72

926768

11

38

35

BI

- 63640

250

625460

250

72

931680

270

37

36

Kr

36

37

Rb

44

30

74 Zn

43

31

Ga

42

32

Ge

- 73423.4

1.4

645669.8

1.6

fl-

41

33

AS

- 70861.1

2.2

642325.2

2.3

8-

6740 4580

270 250

72

938920

160

10300#

600#

72

94998OP

66O#

19

2350

70

73

929461

20

70

5370

70

73

926940

80

1.7

73

921177.4

1.5

1.X

73

923928.0

2.4

73

922474.6

15

73

929898

73

933290

-56890

140

617940

140

;+ +

-

- 465901

6206

6O686O#

620#

B’

+pp

- 65707

19

639519

+

- 68060

70

641080

40

34

se

- 72215.0

39

35

Br

- 65300

38

36

KI

-62140

37

37

Rb

- 51750

1.5

642896.8

-2562.2 1353.9

1.7 15

B’

6915

1.6 16

15

635200

60

631260

60

3160

60

470

620090

470

10390

470

73944440

500

8-

5770

150

74 74

932690 926499

160 7

;I

3392 1177.6 *

7 1.9

74

922858.4

2.3

74

921594.2

1.7

863.9

.n

74

922521.5

20

74

925753

45

30

75 Zn

2p-”

- 62700

150

644580

150

44

31

Ga

+p

- 68466

7

649566

7

43

32

Ge

-n

- 71857.5

2.1

652175.3

2.3

42

33

AS

- 73035.1

1.6

652570.6

1.8

41 40

34 35

se Br

- 72171.3

1.5

650924.4

1.7

-

- 69161

39

36

Kr

+3n

38

37

Rb

B’

60

1.6 22

20

3010

641435

20

4915

28

74

931029

21

633690

110

6970

110

74

938510

120

20

647132

- 64246

20

- 57280

110

23

A.H. Wapstra, G. Audi / Alomic mass evaluation (I) N

2

AELO

Mass excess

Binding energy

(keW

WY)

Beta-decay

energy

Atomic

WY)

msss

(WI)

46

30

Zn

+

-62460

190

652420

190

3980

120

75

932940

210

45

31

Ga

+

-66440

150

655620

150

6770

150

75

928670

160

44

32

Ge

- 73214.5

1.6

661603.7

1.8

- 923.9

1.4

75

921401.6

17

43

33

AS

- 72290.7

1.8

659897.5

19

1.1

75

922393.4

19

42

34

se

- 75254.1

1.5

662078.6

1.7

2963 5 *

75

919212.0

41

35

Br

-

- 70302

75

924528

+nn

lb

40

36

Kr

39

37

Rb

4952

654229

12

1333

16

75

925959

13

645060

70

8390

70

75

934960

80

656344

- 68969

12

- 60580

70

11

lb

11

11

11

47

30

77 Zn

+

- 58910#

280#

656940X

280#

75oo*

200#

76

936750t

3004

46

31

Ga

+

- 664109

2oo*

6636bO#

200t

48oof

2oo#

76

9287OO#

220x

45

32

Ge

-n

- 71215.4

1.9

667615.9

2.0

44

33

AS

- 73918.5

2.2

669596.7

2.3

43

34

se

- 74601.6

1.5

669497.5

1.7

42

35

Br

- 73237

3

667350

3

2703.1

2.1

76

923547.7

2.0

683.1 *

1.8

76

920645.9

2.4

76

919912.5

1.6

76

921378

13648

2.8

41

36

Kr

- 70227

29

663558

29

3010

29

76

00

37

Rb

- 64950

40

657500

40

5279

25

76

930280

40

39

38

Sr

LP

- 57890

150

649650

150

7060

160

76

937860

160

4x

30

78 Zn

+

- 57960#

2804

664MOt

2x0*

56OO#

2oo*

77

937780#

3oof

47

31

Ga

+

- 6356OQ

2000

668880#

200#

83ccl#

200x

77

93176o#

220#

46

32

Ge

- 71863

4

4

953

11

77

922853

4

45

33

AS

- 72816

10

10

4212

10

77

921830

11

44

34

se

- 3574

4

77

917307.6

1.6

43

35

Br

9

77

921144

4

42

36

Kr

- 74151

a

697 *

77

920396

9

41

37

Rb

- 66980

30

7170

30

77

928090

40

40

38

Sr

--

- 63650#

300#

663490#

3oo#

33304

3oo#

77

931670#

3203

48

31

79 Ga

-c

- 62760

130

676140

130

6770

a0

7a

932630

140

47

32

Ge

+

-69530

100

682130

loo

4110

7a

925360

110

5

7a

920946

6

2.2

7a

918498.1

1.1

78

918336.1

2.6

6

78

920084

7

28

78

923954

29

-

676395 676565

- 77028.1

1.5

679995.3

1.7

- 73454

4

675639

4

8

675554

30

667600

46

33

As

+p

- 73639

6

685460

6

45

34

se

-n

- 75919.1

1.6

686957.7

1.8

44

35

Br

- 76070.0

2.4

686326.3

2.5

43

36

Kr

- 74442

6

683916

6

42

37

Rb

- 70837

27

679529

21

2280 150.9

loo

l

lb28 3604

30

41

38

Sr

-

- 6534O#

200*

673250#

2006

55OO#

2oott

7a

929860t

220#

40

39

Y

--

- 5824O#

SOO#

665360X

500s

71oo#

54o#

78

937480#

540#

-59380

320

49

31

80 Ga

300

680840

300

300

79

936250

48

32

Ge

- 69380

30

690060

30

2780

40

79

925520

30

47

33

AS

- 72165

24

692057

24

5597

24

79

922528

26

46

34

se

- 77762.1

1.8

696X72.0

2.0

- 1871.1

1.8

79

916519.6

1.9

45

35

Br

- 75891.0

2.4

694218.6

2.5

2001

9

79

918528.3

2.6

44

36

Kr

- 77892

8

695437

8

79

916380

9

43

37

Rb

- 72173

19

68R936

19

79

922519

21

-70190

30

686170

42

38

Sr

41

39

Y

+

-PP -

-6119O#

4004;

67639Q#

lowo

30 400#

l

5718 1980

18 40

79

924650

30

WOO#

4oO#

79

934310#

430#

50

31

81 Ga

+

-57990

190

687510

190

a320

150

80

937750

210

49

32

Ge

+

-66310

120

695050

120

6230

120

80

928820

130

48

33

As

+p

- 72535

6

700499

6

3856

5

80

922131

6

47

34

se

-n

- 76391.8

1.9

703573.1

2.1

1586

6

80

917990.7

2.0

46

35

Br

- 77977

5

704376

5

80

916289

6

45

36

Kr

- 77697

6

703313

6

80

916590

44

37

Rb

- 75461

23

700295

23

2236

22

80

918990

24

43

38

sr

-

- 71470

40

695520

40

3990

30

80

923270

40

42

39

Y

-

- 65950

41

40

Zr

-

-58790

l

2ao.x

1.5

70

689220

70

5520

bo

80

929200

300

681280

300

7160

290

80

936880

6

80 320

24 N

2

A.H. Wapstra, G. Audi / Atomic mass evaluation (I) A

82

EL

0

Mass excess

Binding energy

CkeV)

CkeV)

Beta-decay

energy

Atomic

CkeV)

mass

CPU)

50

32

Ge

i

- 65380

140

702190

140

4700

140

81

929110

150

49

33

As

+

- 7007x

25

706113

25

7519

25

81

924769

27

4x

34

Se

- 77596.1

2.1

712848.8

2.3

-97

6

81

916697.X

2.3

47

35

Br

- 77499

5

711969

5

3092.5 *

1.5

81

916802

6

46

36

Kr

- 80591

5

714279

5

45

37

Rb

- 76202

17

709108

17

44

3x

Sr

+nn

- 75997

9

708121

9

43

39

Y

-

-681X0

90

699520

90

42

40

Zr

-

- 64180

510

694740

510

51

32

83 Ge

+ +

-612406

400#

70613OtL

50

33

Ah

+

- 69880

220

713990

49

34

Se

-n

- 75343

4

4x

35

Hr

-79011

47

36

KI

46

37

45

3x

44

39

Y

43

40

Zr

51

33

X4 As

50

34

SC

49

35

4x 47

RI

913482

6

17

Xl

918195

19

205

19

Xl

91x414

9

7820

90

Xl

926810

100

4Oco

500

Xl

Y311On

550

400#

8640#

46Or

82

v3425oe

4306

220

5460

220

82

924980

240

718667

4

366X

5

X2

919117

4

5

721552

5

973

5

X2

915179

5

- 79983

3

721743

4

x2

914135

4

Rb

- 7YO44

21

720021

21

940

21

x2

915144

23

SF

- 767RX

21

716982

21

2256

10

X2 917566

23

-

- 72380

60

711790

60

4410

50

X2

922300

60

-

-66360

100

704990

loo

6020

110

x2

92Ri60

110

+ +

- 66080s

300a

71826OC

3OQ#

987Ott

300#

X3 929060X

- 75952

15

72734X

15

1826

2x

X3

918463

16

Br

-7777x

26

728391

26

4653

26

83

916503

28

36

Kr

- X2431

3

732262

3

- 2685

3

x3

911507

4

37

Rb

- 79746

4

728794

4

3

x3

914390

4

46

38

Sr

- 80640

4

728906

4

894 *

X3

913430

4

45

39

Y

-

- 74230

170

721710

170

6410

170

83

920310

180

44

40

Zr

-

-71430#

35oc

718130#

350r

2x00*

3003

83

923320s

370#

4390

l

320#

52

33

85 As

+ +

- 635109

400#

723760#

400#

8910*

410*

84

931820#

430#

51

34

Se

+

-72420

100

731880

loo

6190

100

84

922260

110

50

35

Br

+

- 78607

19

737292

19

2870

19

84

915612

21

49

36

Kr

- 81477

3

739379

4

84

912531

4

4x

37

Rb

- 82164.4

3.0

739284

84

911794

3

47

3x

Sr

- 81099

4

84

912937

4

46

39

Y

-

- 77839

11

10

X4

916437

12

45

40

Zr

-

-73150

100

921470

44

41

Nb

--

-667406

400s

52

34

86 SC

+

- 70540

130

738080

130

51

35

Br

+

- 75640

60

742400

60 5

- 51R

2.0

3

687.4 *

737437

4

1065.2

2.8

733394

11

3260

727920

100

4690

100

84

72073OC

400+

641O#t

410#

X4 9283506

430#

5100

120

85

924270

140

7620

60

85

91X800

60

5

85

910616

5

1.9

85

911172

3

X5

909267.2

2.R

50

36

KI

- 83262

5

749235

49

37

Rb

- 82743.4

2.9

747935

3

48

38

Sr

- 84517.7

2.6

748926.5

2.8

1774.3 *

110

47

39

Y

-

- 79218

20

5240

20

85

914X93

46

40

Zr

-

- 779XO#

2oOf

74082O#t

2cm#

1300t

200#

85

9162YO#

220#

45

41

Nb

--

-69.580#

300*

731640#

300t

8400#

36of

X5 92531Ott

320#

++

- 667104:

400#

7423206:

4C0#

7170#

420s

86

92X39+3*

430x

+

- 73880

120

748700

120

6830

120

86

920690

130

38X7

5

X6 913360

5

282.3 f

1.9

X6

909187

3

86

908884.1

2.8

87Se

20

742904

22

53

34

52

35

Br

51

36

Kr

- 80706

5

754750

5

50

37

Rb

- 84592.3

2.9

757855

3

49

3R

SI

- 84874.6

2.6

757354.8

2.7

40

39

Y

-

- 83013.6

2.9

754711

3

1861.0

1.4

86

910882

3

47

40

Zr

+3n

- 79348

8

750263

8

3666

9

86

914817

9

46

41

Nb

-

- 74180

60

744310

60

5170

60

86

920370

70

45

42

MO

-

- 67440

310

736790

310

6740

310

86

927600

340

A.H.

N

Z

A

EL

0

25

Wapstra, G. Audi / Atomic ma.w evaluation (I)

Mass excess

Binding energy

(kev)

WV1

Beta-decay

energy

Atomic

(kev)

mass

CPU1

53

35

88 Br

- 70720

130

753620

130

8970

130

87

924080

140

52

36

Kr

- 79687

14

761804

14

2913

14

87

914453

15

51

37

Rb

- 82600

5

763934

5

5316

4

87

911326

5

- 87916.2

2.6

768467.8

2.8

87

905618.8

2.8

87

909508

3

910225

11

+

l

50

3u

SI

49

39

Y

-

- 84294

3

764063

3

3622.6

48

40

Zr

+lUl

- 83626

10

762612

10

668

11

87

1.5

47

41

Nb

-

- 7643OC

200t

754630#

2OQ#

72001

200*

87

91795OC

220#

46

42

MO

--

- 72830#

3009

750250#

3lxJc

3600#

360#

87

921X20*

320#

54

35

89 Br

+

-68420X

400#

7593YOtf

4OOf

83OOf

400x

8R

926550#

4304

53

36

Kr

+

- 76720

50

766910

50

4990

50

88

917640

50

52

37

Rb

- 81713

8

771118

8

4498

7

88

912278

9

51

38

Sr

- 86210

4

774833

4

1492

3

8X

907450

4

88

905849

3

88

908890

4 20

2.8

775542.8

3.0

- 84869

4

771927

4

p2n

- 80622

19

766R98

19

4246

19

RR

913449

+3n

- 75004

16

760498

16

561X

24

RR

919480

-

-68000#

4009

752720?#

4CUI#

7000#

4co#

88

927OCN3#

430#

+

- 64260#

400#

763310#

400#

10700#

4cn#

89

931010#

430#

+

- 74960

30

773220

30

4390

30

89

919520

30

Rb

- 79353

13

776830

13

6589

12

89

914811

14

38

Sr

- 85942

3

782636

4

20

89

907’38

4

51

39

Y

- 86488.1

2.8

782400.1

3.0

2.5

89

907152

3

50

40

Zr

- 88769.7

2.4

783899.3

2.6

2281.5 *

89

9047026

2.6

49

41

Nb

-

- 82659

5

777006

5

6111

4

89

911263

5

48

42

MO

-

-X0172

6

773737

6

2487

4

89

913933

47

43

Tc

-

- 70970#

300#

763750#

3006:

92006

3OOtF

89

9238lOl

320#

55

36

91 Kr

- 71370

80

777700

80

6420

80

90

923380

90

54

37

Rb

- 77794

8

783342

8

5867

7

90

916485

9

53

38

Sr

-X3661

5

788426

5

2686

4

90

910187

5

52

39

Y

- 86347

3

790331

3

2.0

90

907303

3

51

40

Zr

- 87892.8

2.4

791093.8

2.6

1545.6 *

90

905643.9

2.6

50

41

Nb

-

- 86638

3

789057

4

1254.6

2.5

90

906991

4

49

42

MO

+n

- 82200

13

783836

13

443R

13

90

911755

13

48

43

Tc

-

-75980

200

776830

200

6220

200

90

918430

220

47

44

Ru

~-

-684000

400#

768470f

4CO#

7580#

450#

YO 926570#

56

36

92 Kr

-+

- 68680

80

783080

80

6160

80

91

926270

90

55

37

Rb

- 74836

14

788456

14

8120

12

91

919661

15

54

38

Sr

82956

12

795793

12

1888

12

91

910944

13

53

39

Y

- 84844

10

796899

10

3612

10

91

908917

11

52

40

ZI

- 88456.6

1.7

91

905038.6

4

91

907192

3 4

50

39

Y

49

40

Zr

48

41

Nb

47

42

MO

46

43

Tc

55

35

54

36

Kr

53

37

52

YOBr

X7702.2

+

2.4

799729.0

l

2833.4

546 2

2.6

2005.9 358

2.6

17

7

430#

2.6

51

41

Nb

- 86450.7

2.8

796940.7

3.0

50

42

MO

- 86808

4

796516

4

l

91

906808

49

43

Tc

-

- 78938

26

787863

26

7870

26

91

915257

28

48

44

Ru

--

- 74410#

300#

7825509

300#

4530#

300#

91

920120t

320f

+

-64150

57

36

93 Kr

120

786620

120

8530

120

92

931130

130

56

37

Rb

- 72679

15

794369

15

7443

13

92

921977

16

55

38

SI

- SO121

12

801030

12

4114

14

92

913987

13

54

39

Y

- 84235

11

804361

11

2884

11

92

909571

12

53

40

Zr

-87119.3

2.4

806463.0

2.6

92

906474.3

2.6

52

41

Nb

- 87209.8

2.5

805771.2

2.7

92

906377.2

2.7

51

42

MO

- 86804

4

804583

4

406

4

92

906813

4

50

43

Tc

-p

- 83606

4

800603

4

3198.1

1.7

92

910246

4

49

44

Ru

IT

- 77270

90

793480

YO

90

92

917050

90

4x

45

Rh

--

-69110#

4001

784540#

410#

92

925810#

430#

4m#

90.5 .

6340 8160X

1.6

26 N

2

A.H. Wapstra, G. Audi / Atomic mass e~t~t~on (I) AELO

Mass excess

Binding energy

(k.+f

Beta-decay

W0

energy

Atomic

(kev)

mass

(PU)

57

37

94 Rb

- 68529

26

10307

27

93

926432

38

Sr

- 78836

26 7

798291

56

807816

8

3512

5

93

915367

8

55

39

Y

- 82348

6

810545

6

4920

5

93

911597

6

54

40

Zr

- 81267.9

2.6

814683.0

2.8

- 900.0

2.4

93

906314.8

2.8

53

41

Nb

- 86367.9

2.5

813ooO.7

2.7

2045.3

2.3

93

907280.9

2.7

52

42

MO

- 88413.2

2.4

814263.6

2.6

93

905085.3

2.6

51

43

Tc

-

- 84157

5

809225

5

5

93

909654

6

+nn

50

44

Ru

49

45

Rh-

58

37

57

38

l

4256

- 82567

13

806853

13

1590

14

93

911361

- 72970#

300#

796470#

3OOe

9600#

300*

93

92167O)t

2R

14 3204

-65808

28

803642

28

9280

60

94

929352

30

sr

- 75090

M)

812140

60

6120

60

94

919380

60

95 Rb

56

39

Y

- 81214

6

817483

6

4445

5

94

912814

6

55

40

Zr

- 85659.3

2.6

821145.7

2.8

1124.3

2.2

94

908cm.7

2.x

54

41

Nb

- 86783.6

2.1

821487.7

2.3

925.6

.5

94

906834.7

2.3

53

42

MO

- 87709.2

2.1

821630.9

2.3

94

905841.1

2.2

52

43

l-c

- 86018

6

819157

6

1691

6

94

907657

7

51

4-I

RU

- 83449

12

815806

12

2569

13

94

910414

13

50

45

Rh-

- 78340

150

809910

150

5110

150

94

915900

160

49

46

Pd

-70150a

400*

800940#

4OOt

819OC

430#

94

9246909

430#

59

37

96 Rb

-61140

30

807040

30

11750

50

95

934370,

40

58

38

Sr

- 72890

40

818010

40

5416

20

95

921760

50

57

39

Y

- 78300

40

822640

40

7140

40

95

915940

50

56

40

Zr

- 85442

3

829OW

3

163

5

95

908275

4

55

41

Nb

- 8.5605

4

828381

5

3187

4

95

908100

5

54

42

MO

- 88792.1

2.0

830785.2

2.3

- 2973

5

95

904678.5

2.2

53

43

Tc

- 85819

6

827030

6

10

95

907870

6

52

44

RU

- 86071

8

826500

8

252 *

95

907599

8

51

45

Rh-

- 7%30

13

819276

13

6441

10

95

914515

14

- 763?0#

300+

815240#

3cm#

3008

95

918010#

320#

3046

Pd

--

+ -

--

l

3260#

60

37

97 Rb

- 58280

50

812250

so

10520

70

96

937440

50

59

38

SI

- 68800

70

821990

70

7470

70

96

926140

80

58

39

Y

- 76270

60

828680

60

6680

60

96

918120

70

57

40

Zr

- 82950

3

834579

3

2658.3

1.9

96

910950

3

56

41

Nb

- 85608.3

2.7

836455.1

2.9

1.9

96

908096.5

2.9

55

42

MO

- 87542.1

2.0

837606.6

2.3

1933.8 .

96

906020.5

2.2

54

43

rc

- 87222

5

836504

5

320

4

96

906364

5

53

44

RU

- 86111

8

834611

8

1110

9

96

907556

9

-82600

30

830320

30

3510

30

96

911320

-77800

300

824740

300

4800

300

96

916480

320

52

45

Rh-

51

46

Pd

50

47

Ag

61

37

98 Rb

60

38

--

sr

81705Oft

4Oiw

-70900#

400x

-54060

60

816110

60

-66490

80

827760

80

30

500#

96

923890#

430#

12430

80

97

941960

70

5880

60

97

928620

80

8910

60

97

922300

70 22

69000

59

39

Y

- 72370

60

832860

60

58

40

Zr

- 81288

20

840988

20

2240

20

97

912735

57

41

Nb

- 83528

6

842446

6

4586

6

97

910330

56

42

MO

- 88113.2

2.0

846249.1

2.3

- 1684

3

97

905407.3

6 2.2

7

97

907215

4

97

905287

7

10

97

910716

13

1869

24

97

912722

23

8230#

300*

97

92156Ot

320#

-pm

55

43

TC

- 86429

4

843783

4

54

44

Ru

- 88225

6

8447%

6

l

53

45

Rh-

- 83168

12

838957

12

5057

52 51

46 47

Pd Ag

-PP --

- 81299

21

836306

22

- 73070#

300*

8272900

3004

17%

8’

21

A.H. Wapsira, G. Audi / Atomic man evaluation (I) N

Z

AELO

Mass excess

Binding energy

(kev)

(keW

Beta-decay

Atomic

energy

mass

(CU)

WY)

62

37

99 Rb

- 50860

120

820980

120

11310

90

98

945400

130

61

38

SI

- 62180

130

831510

130

7950

120

98

933250

140

60

39

Y

-70130

100

838680

100

7610

80

98

924720

110

59

40

Zr

- 77740

70

845510

70

4590

70

98

916540

70

58

41

Nb

- 82327

13

849317

13

3640

13

98

911619

14

57

42

MO

- 85961.4

2.1

852174.7

2.3

1357.0

1.0

98

907710.9

22

56

43

TC

- 87324.4

2.1

852749.3

2.4

1.3

98

906254.1

2.3

55

44

RU

- 87618.0

2.2

852260.6

2.4

293.6 .

98

905938.9

54

45

Rh

- 85519

98

908192

53

46

Pd

52 51

47 48

Ag Cd

100 Sr

--

9

2.3 10

10

2099

845270

16

3327

15

98

911763

17

839060

150

5430

150

98

917590

160

500#

831510#

500#

6770#

52OC

98

924860e

540#

10

849380

- 82192

16

- 76760

150

- 69990#

62

38

+ +

- 60020t

6lOt

837420#

610#

6700#

720t

99

935570s

650#

61

39

Y

+

-66120X

410#

843340#

410#

99cQa

4009

99

928380#

440#

60

40

Zr

+

- 76620

80

852460

80

3330

70

99

917750

80

59

41

Nb

+

- 79950

30

855010

30

6240

30

99

914180

30

58

42

MO

- 86186

6

860464

6

- 168

6

99

907477

6

57

43

Tc

- ?.6017.4

2.3

859513.7

2.6

18

99

907657.2

2.5

56

44

Ru

- 89219.9

2.2

861933.8

2.4

99

904219.2

55

45

Rt-

- 85590

54

46

Pd

53 52

47 48

Aa Cd

-n

--

20

857522

- 85207

12

856357

- 78120

90

848480

- 7431oc

3004

84389O#

20

3202.5 *

2.4 22

3630

20

99

908116

12

383

23

99

908527

12

90

7090

90

99

916140

100

300#

3a10t

31o#F

99

920230#

32OC

62

39

+ +

- 64380#

51oc

849080#

510f

8720#

510#

100

930880s

5409

61

40

Zr

+

-73100

140

857020

140

5780

120

100

921520

150

60

41

Nb

+

- 78880

70

862020

70

4630

70

100

915320

X0

59

42

MO

- 83513

6

865863

6

2812

24

loo

910345

6

58

43

TC

- 86325

24

867X93

24

1625 *

24

100

907327

26

100

905581.9

538

17

100

906159

101 Y

- 87950.6

57

44

RU

56

45

Rh

+nn

- 87413

2.2

868735 9

17

867416

2.5 17

2.4 19

55

46

Pd

-

- 85431

18

864651

18

1982

4

100

908287

19

54 53

47 48

A& Cd

-

- 81220

120

859660

120

4210

120

100

912X10

130

- 75690

180

853350

180

5530

130

100

918740

190

52

49

In

+a

-68410#

540*

845290#

54OP

7280#

s70t

100

926560#

580#

62

40

102 Zr

+ +

-71760#

4OQ#

45W#

41otr

101

9229604

4308

41

Nb

+

- 76350

400# 70

8637504

61

867550

70

7210

70

101

91x040

80

60

42

MO

-nn

- 83559

21

873980

21

1014

23

101

910297

22

59

43

TC

- 84573

10

R74212

10

4526

10

101

909208

11

58

44

RU

- 2296

21

101

904348.5

45

Rh

101

906814

57

- 89099.5 IT

2.3

877956.2

2.6

2.5

- 86803

21

874X78

21

4

875194

4

1099 *

21

- 87902

101

905634

5

868530

110

5880

110

101

911950

120

22

56

46

Pd

55 54

47 48

AS Cd

--

- 82020

110

- 79700#

200#

8654301

200#

2320#

230#

101

914440#

220a

53

49

In

--

- 704201

420#

8553706

420#

9280#

46oc

101

924400#

450#

52

50

Sn

--

- 64800#

630#

8489709

630#

5620#

760#

101

930430#

680#

63

40

103 Zr

+ +

-67610#

540#

867660#

540#

7500#

510*

102

927420x

580#

62

41

Nb

+

-75110x

230#

874380#

230#:

5500

120

102

91937ott

250#

61

42

MO

+

- 80610#

200#

879100#

200#

4000#

200#

102

913470#

220#

60

43

Tc

+p

- 84606

11

882317

11

2654

11

102

909172

12

59

44

RU

- 87260.6

2.4

884188.6

2.6

102

906322.7

2.5

58 57

45 46

Rh Pd

- 88027

3

905500

4

4

3 4

102

- 87455

884172 882818

102

906114

4

56 55

47 48

AS Cd

+3n

- 84780

50

879370

50

50

102

908980

50

- 80620

18

874419

18

4160

50

102

913452

54

49

In

-

- 744208

300#

867440#

300#

6200#

300x

102

920110%

320#

53

50

Sn

--

- &5920#

500#

859150s

500#

102

928160#

540t

766.2

2.7

l

572.2 2670

2.8

19

28

N

A.H. Wapstra, G. Audi / Atomic mass evaluation (I)

Z

A

EL

0

Mass excess

Binding energy

WV)

Beta-decay

(keW

energy

Atomic

WV)

mass

(WU)

63

41

104 Nb

+ +

- 71780#

410#

879120#

410#

B-

8700#

500*

103

92294Oe

440#

62

42

Ma

+

- 80480#

310#

887040#

310#

P--

2OOOc

300a

103

913600#

330#

61

43

Tc

+

- 82480

70

888260

70

103

911460

X0

60

44

Ru

- 88098

893097

6

;’

70 6

103

YO5424

6

59

45

Rh

- 86954

891171

4

8-

2442

6

103

906651

4

103

904029

6

4279 1144

13 4

103

90X623

7

103

909851

12

58

46

Pd

57 56

47 48

Ag Cd

- 89397

892832

5

+nn

- 85118

887771

7

11

885844

11

- 83974

_;y;

;+

+

55

49

In

-

- 759709

200*

877060#

200#

54

50

Sn

--

- 71470#

4@3#

8717809

400#

53

51

Sb

--

- 59270#

630#

858800#

630#

BP+

64

41

105 Nb

+

- 70140#

5cOr

88556OC

SOOC

P-

63

42

MO

++

-77140t

300*

8917709

3009

62

43

Tc

+

- 82140#

200#

8959W#

200#

P8-

61

44

RU

- 85937

1916

60

45

Rh

- 87853

59

46

Pd

- 88419

RY9Y26

5

58 57

47 48

Ag Cd

- 87076

9

897800

9

- 84339

10

894281

10

;+ +

2737 1343

56

49

In

-

- 79589

18

888748

18

;+ +

4750 6320

55

50

Sn

+(I

- 73270

80

881650

80

54

51

Sb

--

-64090#

5009

871680#

500#

B+

9180#

510s

+ +

-76430X

400#

89914O#

4006

32006

+

- 79630#

300#

901560#

300#

67Ml#

106 MO

5

P’

+

899008

6

B-

900142

6

B-

80009

2OO*

103

91844O#

2204

45oOr

450*

103

923270#

430*

12200#

750*

103

936370#

6X0X

7000Q

4OOu

104

924710#

540#

5cKlO#

360s

104

9171YO#

320#

3800#

200*

104

91182OC

?20#

4

104

907744

6

2.Y

104

9056X6

6

566.2

104

W507Y

6

104

906520

10

10 5

104

909459

11

SQ 15

104

914558

19

104

921340

90

104

9312009

54oa

50011

105

9179505t

43o;F

3OO*

105

914510s

320s

105

907321

11

105

907279

11

2.4

105

903478

6

105

906662

6

l

64

42

63

43

Tc

62

44

RU

- 86330

10

907473

10

61

45

Rh

- 86370

10

906730

10

60

46

Pd

- 89910

909488

5

B-

-2965.6

59 58

47 48

Ats Cd

- 86944

905740

6

8-

8

- 87132

6

905144

6

187 .

105

906461

7

57

49

In

-

- 80590

30

897820

30

6545

30

105

913490

30

56

50

Sn

-

- 77290#

2009

893740#

2000

3300#

zoo*

105

91703otr

55

51

Sb

--

- 664YO#

500#

8821509

5OQ#

108009

540*

105

92Xh’Ott

540x

54

52

Te

--LI

- 58050#

6306

872940#

630X

843OtL

RlOtF

105

937680~2

6x0~

;’

3540 39.40

;+ +

9 .30

220X

65

42

+ +

- 72510#

580s

YO3290#

SROC

F

6450f

660a

106

922160s

630*

64

43

Tc

++

- 78%0#

3008

908960#

3OOt

8-

4750#

420#

106

915230#

320s

63

44

Ru

+

- 83710

300

912930

300

P-

3150

300

106

910130

320

62

45

Rh

- 86862

18

915293

18

1512

19

106

906751

20

61

46

Pd

- 88374

6

916023

6

106

905127

7

60 59

47 48

Ag Cd

- 88407

915274

6

106

905092

6

-

- 86990

913075

7

7

58

49

In

-

- 83570

908872

8

57

50

Sn

-

- 78370#

1OOt

YO28YO#

1009

56

51

Sb

--

- 70670#

400#

RY4410#

55

52

Te

--01

-60510#

SOOX

883470#

65

43

108 Tc

+ +

- 75990#

4003

9140608

4006

64

44

Ru

+

- 83700

610

920990

610

921590

50

925242

4

,t-

922543

6

B-

107 MO

8

33.2

+

3.0

1417

4

106

906613

z+

3420

5

106

910284

B’

52OOt

loOfF

106

915870#

llO#

4co#

77coc

410t

106

Y24130t

430#

500*

10160a

640C

106

935040#

540#

P-

77104

730t

107 107

918420# 910140

430# 650

;’

4430 1390

610 50

107

908650

50

6

107

903895

4

8

107

905952

6

107

904176

6

107

909678

12

63

45

Rh+

- 85090

50

62

46

Pd

- 89522

4

61 60

47 48

Aa Cd

- 87605 - 89260

6

923416

6

59

49

In

- 84135

11

917508

12

58

so

SIl

- 82090

30

914680

30

57

51

Sb

--

- 72530#

3cQ#

904340#

300#

56

52

Te

--LI

- 65620#

4009

896650#

4oOf

55

53

I

--LI

- 525509

660#

882790#

660#

;+

-1916

+ +

;+ P’

1655

9

2049 5125

28 10

107

911880

9550#

3oOf

107

922130X

320#

6910#

500*

107

929550#

43oc

130701

780#

107

943590#

710#

30

29

A.H. Wapstra, G. Audi / Atomic mass evaluation (I)

N

Z

A

EL

0

Mass excess

Binding

66

43

109 Tc

65

44

Ru

Beta-decay

energy

Atomic

energy

WV)

WV)

WV)

mass

(PW

+ +

- 74910#

500#

921050#

5OOtt

59ilO)t

5804:

IOR

9195ROb

5400

+

- 80810#

3OOt

926170#

300*

4200#

300#

108

913240s

320#

23

10R

901734

24

10R

905954

4

10R

904756

4

108

904953

5

108

907133

7

108

911294

11 20

64

45

Rh

- 85014

22

929588

23

B-

2590

63

46

Pd

- 87604

4

931396

4

o-

2.0

62 61

47 48

Ax Cd

- 88720

3

931729

4

1115.9 *

- 88536

4

930763

5

0’

184.1

2.9

60

49

In

- 86505

7

927950

7

z++

59

50

Sn

+3n

- 82630

10

923292

IO

58

51

Sb

-

- 76250

19

916129

19

P’

6380

16

108

.91x143

57

52

Te

- 67650

70

906750

70

P’

8600

70

108

927370

70

56

53

I

8+

9890#

540#

108

937990s

580#

66

44

2600#

320#

109

913760#

320%

65

45

Rh+

-82940

100

109

910960

110

64

46

Pd

19

109

905167

20

63 62

47 48

Ax Cd

109

906111

4

109

903005

4

61

49

In

-

- 86410

109

907230

30

60

50

Sn

+nn

59

51

Sb

-a

110 Ru

-a

+ +

- 577604

540#

8960ROt

540#

x0340*

3cQ*

933770#

3cQ*

100

935580

100

- RR337

18

940200

18

p-

- 87458

3

938539

4

P-

-90351

3

940649

3

30

935930

30

- 85830

16

934564

- 77530#

200#

9254ROf

16 200~

;’

2031 3876

‘E 2892 7 t

;+ + +

12 6

1.7

3940 580 8300#

30

109

907858

17

200#

109

916770#

220# 220#

58

52

Te

- 72140#

2cQ#

919310#

2000

290#

109

92256Otf

53

1 -a

-60490X

500#

906870#

500#

;+ B’

53W#

57

116504

540#

109

93506O#

540#

56

54

Xe

-a

- 51750#

630X

897360#

630#

P’

8740#

x10*

109

944440#

6X0*

67

44

111 Ru

+ +

-76920#

4OQ#

938420#

400#

8-

5400#

4503

110

917430x

430#

66

45

Rb+

- 82320#

210#

943030t

210s

D-

37000

200s

110

91163Oe

220#

65

46

Pd

+

- 86020

50

945950

50

Pm

2200

50

110

907660

50

64 63

47 48

Ax Cd

+

- 88218

4

947370

4

P-

110

905295

4

- 89255

3

947624

3

1037.0 *

110

904182

3

62

49

In

- 88391

6

945978

6

8’

6

61

50

Sn

+n

- 85939

7

942744

7

60

51

Sb

-

- 80840#

2cat

936860#

2006

864

6

110

905109

8+

2451

8

110

907741

B+ +

51OOt

2M)f

110

91322OdL

737oc

210#

110

921130

X0

85006

410?#

110

930250#

430#

10590#

650#

110

941620#

540#

6600#

300#

111

9144lOf

320#

294

19

111

907323

27

2R 5

111

907010

30

111

902757

3

661 *

5

111

905536

6

111

904826

5

7065

2s

111

912411

27

59

52

Te


- 73470

70

58

53

I

-a

- 64970#

4co#

91943otL

400#

;+

57

54

Xe

-a

- 543808

510x

908060#

510#

P+

67

45

112 Rh

+

- 79730#

300#

948520#

3cQ#

66

46

Pd

- 86329

25

954335

2s

65 64

47 48

As Cd

- 86623

28

953846

28

- 90582.3

2.9

957023

3

;:

63

49

In

- 87994

5

953652

5

8-

62

50

Sn

- 88654

5

953531

5

61

51

Sb

-

- 81589

25

9456x3

25

60

52

Te

- 77300

160

940610

160

59

53

I

--LL

-67120#

300#

58

54

Xe

-a

-59880#

mx

929650# 92163OC

3006 400X

68

45

113 Rh

+ +

-78840#

4cO#

955700#

ooD#

67

46

Pd

+

- 83680

150

959760

150

66 65

47 48

Ax Cd

+

- 87041

20

962336

20

64

49

In

63

50

Sn

62

51

Sb

928710

70

-89051.1

2.9

963564

3

- 89367

4

963097

4

- 88328

4

961276

4

-p

- 84421

24

956586

24

200#

61

52

Te

-

- 78320f

60

53

I

-cl

-71120

59

54

Xe

58

55

cs

-62130 -p

- 516106

9497OQ#

-g;

+

x 2204

4290

170

111

917020

180

lOlXO#

350#

111

927940#

3304

;+

7250#

500#

111

935720#

430#

B-

4840 *

430#

112

915360#

430#

112

910170

160 22

:+

+

;’ 8-

2010 3360

150 20

112

906558

316

4

112

9044co

3

112

904061

4

l

i+ + +

3908 1039

24 4

112

905176

5

112

909372

26

6100#

200#

112

b15920#

220#

7200#

210x

112

923650

60

80

8990

100

112

933300

90

410#

10520X

420s

112

944600#

440#

941720

50

80

931950 920650 #

;’

200#

50 410#

2.0

;+

30 N

Z

A.H. Wapstra, G. Audi / Atomic mass evaluation (I) AELO

Mass excess

Binding energy

WV)

Atomic mass

WV)

6R

46

114 Pd

+

- 83540

150

%7690

150

67 66

47 4R

Ag Cd

+

- 84990

110

%X360

65

49

Ill

113

910310

160

110

110

113

908760

120

4

113

903357

3

2.5

113

904916

4

113

902784

4

113

909110

220

2.9

972607

3

- R8570

4

970372

4

64

50

Sn

3

971576

3

63

51

Sb

-

-84670

200

964900

200

62

52

Te

--

- 81760#

2004

9612109

2009

61

53

I

-

- 72860#

28OL

9515304

2x0*

60

54

Xe

-a

-66910X

290#

9448OOC

59

55

cs

-a

- 54710#

5104

69

46

115 Pd

+ +

-80490#

6X

47

+

- 84950

67

48

Ag Cd

66

49

In

65

50

Sll

64

51

Sb

-

63

52

Te

-

-82250

200

62

53

I

--

- 763009

200#

61

54

Xe

rp

- 68670#

28OP

954630#

280#

60

55

cs

-a

- 59550#

500#

944730x

70

L?-

8-

1450

(CU) 100

- 90022.9 - 90557

Beta-decay energy

(ken

1986.3 *

;++ +

29108 5890

280# 200

113

912230t

2201

89@3#

2009

113

921790s

3009

290#

:+

5940#

4wc

113

928170#

310,

931810f

510#

8’

12210x

580#

113

941270#

5406

300#

972710#

300#

4460#

310#

114

9135904

320#

70

976390

70

3140

70

114

908ROO

80

2.7

114

905430

3

114

903882

4

;’

- 88092.4

2.9

978748

3

B-

1441.8

- 89534

4

979407

4

8-

4

- 90032

3

979122

3

497 *

114

903348

3

- 87002

20

975310

20

8:

3030

20

114

906601

22

969780

200

:+

4750

200

114

911700

220

%3050#

200#

5950#

2RO#

114

91809OP

2204

8’

7630f

35oc

114

926280#

3009

5cQ#

8+

9120#

580#

114

936070#

540#

8-

2620

100

115

914mO

170

115

911200

130

46

116 Pd

+

- 80110

160

980400

160

69 47 6R 48

A8 Cd

+

- 82720

120

982230

120

- 88721

3

987447

3

BgI

-474 6000

120 3

115

904755

4

67

49

In

-n

- 88247

4

986191

4

8-

3276

4

115

905264

4

66

50

Sn

- 91523

3

988685

3

115

901747

3

65

51

Sb

- 86816

6

983195

6

115

906800

64

52

Te

-85280

100

980880

100

6 100

63

53

I

-

-77520

160

972330

160

62

54

Xe

-

- 7302OC

260x

967050#

260s

61

55

CS

- 62300

310

955550

310

l

;++

4707 1540

loo5

115

908450

z++

7760

130

115

916780

170

4500x

200#

115

921610+

280#

10720#

400#

115

933110

330

8+

70

47

117 Ag

- 82250

50

989830

50

116

911700

60

69

48

Cd

- 86417

13

993215

13

;’

4170 2525

50 13

116

907228

14

6R

49

In

- 88943

5

994958

6

8-

1454

5

116

904517

6

67

50

Sn

- 90396.4

2.9

995630

3

116

902956

3

66

51

Sb

-

- 88641

9

993092

10

8+

9

116

904841

10

65

52

Te

-

- 85110

30

988780

30

;++

64

53

I

-

- m610*

2co#

9835003

200#

+

l

1755 3530

30

116

908630

4500#

200#

116

913460#

220#

6320#

370*

116

920250#

340#

116

928900

190

30

63

54

Xe

rp

- 74290#

320#

9764003

320#

62

55

Cs

IT

- 66230

180

%7550

180

61

56

Ba

cp

- 56930#

560t

957470#

560#

;++

9300# 80604

5909 3604

116

938880#

6009

71

47

118 Ag

+

-79580

100

995230

100

8-

7130

loo

117

914570

110

70

48

Cd

-n”

- 86710

20

1001579

20

117

906914

22

69

49

In

+

-87450

300

1001540

300

117

906120

320

68

50

Sn

3

117

901609

67

51

Sb

117

905534

117

905908

66

52

Te

+m

-91651.6

2.9

1004956

- 87995

4

loo0517

- 87647

23

999387

4

8’

;’

4200 140

300

l

;++

23

+

3656.6 348

23 3.0

3 4

6400#

2009

117

912780#

24 220#

3200#

2OOt

117

916210#

310#

98101

3104:

117

926740

140

6290#

51OY

117

9335OOr

530s

65

53

I

-

- 81250#

200#

9922OOt

2Oow

64

54

Xe

-

- 78050#

2808

988220#

2800

63

55

Cs

IT

- 68240

130

977630

130

62

56

Ba

--

-619509

49Q#

970560f

490#

72

47

119 Ag

+

- 78590

70

1002310

70

118

915630

80

71

48

Cd

+

- 83940

60

1006880

60

;’

3790 5350

40 60

118

909890

70

70

49

In

+p

- 87730

18

1009888

18

8-

18

118

905819

19

69

50

Sll

- 90365.7

2.9

1011442

3

2336 .

118

903311

3

68 67

51 52

SbTe

- 89472

8

1010066

8

118

903948

9

-

- 87178

8

1006990

9

118

906411

9

;+ :+ +

$1

2294.0 593

2.0 8

66

53

I

-

-83810

100

1002840

loo

3370

100

118

910030

110

65

54

Xe

-

-78820

160

997070

160

4990

120

118

915390

170

64

55

Cs

IT

-72200

100

98%6Q

100

6620

190

118

922490

110

63

56

Ba

rp

-63960X

410#

980640X

410#

8240#

430s

118

9313404

440#

31

A.H. Wapstra, G. Audi / Atomic mass evaluation (I)

N

Z

A

EL

0

Binding energy

Mass excess (kev)

Beta-decay

Atomic

energy

WV)

WV)

mass

(PW

73

47

120 Ag

-I

-75770

1007570

100

8200

100

119

918650

72

4X

Cd

+OI

- 83973

19

1014985

19

1830

170

119

909852

20

71

49

In

+

- X5803

170

1016030

170

8-

5300

170

119

907890

180

70

50

Sn

7

119

902199.1

69

51

Sb

21

119

905077

8

68

52

Te

119

904048

21

67

53

I

-

-83980

66

54

Xe

-

- 82030

65

55

ts

64

56

Ba

loo

110

2.9

- 91101.7

2.7

1020549

3

fl-

- 88421

8

1017086

8

P-

- 89380

19

1017262

19

200

1011080

200

j!?’

5400

200

119

909840

220

280

1008350

280

8’

1950

200

119

911940

300

- 73770

80

999310

80

8’

R260

290

119

920800

-

- 68470#

410x

993230#

410#

4+

5300#

400x

119

9264906:

4406

-

-2681 959 l

X0

74

47

121 Ag

+

-74550

190

1014420

190

120

120

919970

210

73

48

Cd

+

- 80950

150

1020030

150

150

120

913100

160

72

49

In

+p

- 85840

28

1024141

28

28

120

907847

30

71

50

Sn

- 89201.8

2.7

1026720.4

3.0

120

904238.7

70

51

Sb

- 89590.7

2.7

1026327.0

3.0

120

903821 2

69

52

Te

- 88542

120

904947

6R

53

I

67

54

Xe

66

55

CS

- 77090

60

65

56

Ba

‘p

- 70140#

350#

210#

102773Otl

3361

8-

388.9

8-

2.4

2.9 2.9

8’

1049

25

120

907394

21

60

:+ +

3780 2279

60 27

120

911450

60

1010690

60

8’

5399

20

120

917250

60

1002970#

350#

B’

6950#

350s

120

9247004

3704

25

10244%

25

- 86263

19

1021434

19

- 82490

60

1016880

27

210#

3000#

200#

121

913500#

220a

1029950

50

6370

50

121

910280

50

2.7

1035535

3

p-

3

121

903440.4

3.0

- 88325.9

2.7

1033133.6

3.0

8-

3

121

905179.0

2.9

- 90309

3

1034335

3

121

903050

3

-

- 86075

6

1029318

6

121

907595

6

Xe

+

-x5540

410

1028ooO

410

440

Cs

IT

- 78160

70

1019840

56

Ba

-

- 74360#

3104

+ •)

- 77320#

+p

- 83420

74

48

122 Cd

+

- 80SRO#

73

49

In

+

- 83580

72

50

Sn

- 89945.4

71

51

Sb

70

52

Te

69

53

I

6X

54

67

55

66

50

:+

-1620 1983

+

4234 530

4105

121

908170

70

7380

410

121

916090

80

1015260#

310#

3800f

3OO.s

121

920170s

330#

300x

1032550#

3c4l#

300f

122

9169908

320#

30

1037860

30

30

122

910450

40

122

905721.9

2.9

75

48

123 Cd

74

49

In

73

50

Sll

- 87820.2

2.7

1041482

3

72

51

Sb

- 89222.9

2.3

1042102.0

2.6

122

904216.0

2.4

71

52

T.?

- 89171.7

2.0

1041268.4

2.4

122

904271.0

2.2

70

53

I

- 87939

5

1039254

5

122

905594

5

69

54

Xe

- 85261

16

1035793

16

122

908469

17

68

55

CS

- 81050

40

1030800

40

67

56

Ba

--

- 75260#

300#

1024230s

3006

+

- 81060

50

1043570

50

75

49

124 In

74

50

Sn

- 88237.1

1.6

1049969.9

2.0

73

51

Sb

- 87619.0

2.3

1048569.5

2.6

90525.2

1.7

1050693.3

2.1

4

1046754

5

2.1

1046263.0

72

52

Te

71

53

I

70

54

Xe

69

55

cs

IT

- 81720

68

56

Ba

-

- 78820#

3OO*

80

-

- 87368 - 87659.6

40

1039540

1051000

80

76

49

125 In

+

- 80420

75

50

Sn

-n

-X5898.2

2.1

1055702.4

2.4

74

51

Sb

+

3

1057280

3

2.4

1057264.4

2.7

2.6

1056304.0

2.9

2.1

1053866.3

2.5 17

73

52

re

53

I

- 88846.8

71

54

Xe

-87191.5

70

55

CS

- 84092

17

1049984

69

56

Ba

- 79510

250

1044620

-

+

1232 51.3

5 2.1

:+ +

4210 2678

50 15

122

912990

50

B+

5790#

300#

122

919210f

320#

7180

50

50

-618.1 ;’

-:E.’

B-

123

912980

2.3

123

905274.3

1.7

41.8

123

905937.8

2.4

123

902818.0

1.8

123

906207

5

123

905894.2

123

912270

40

300x

123

915380#

330#

5480

80

124

913670

90

2360

3

124

907785.2

2.2

2.0

124

905252

3

124

904428.5

2.5

1.8

124

904619.7

2.8

1655

3

124

906396.7

3100

17

124

909725

18

4580

250

124

914640

270

291

5

5940

40

2900#

884-

2.5 3cQ#

72

:+

40

1035860#

- 88258 - 89025.0

3.0

250

,“:

8’ L?+

s+ P+

766.7 178.1

2.2

2.3

32

N

A.H. Wapstra, G. Audi / Atomic mass evaluation (I)

Z

AELO

Mass excess

Binding energy

WV)

Beta-decay

NeV)

77

49

126 In

4

- 77810

80

1056470

X0

P-

76

50

Sn

-nn

- 86021

11

1063896

11

7s

51

Sb

-

- 86400

30

1063490

30

P8-

74

52

l-e

- 90067.3

2.4

106637R.2

2.7

Pm

73

53

1

- 87912

5

1063440

6

o-

1251

;+ +

72

54

XC

- 89162

7

1063909

7

71

55

cs

- 84334

24

105R297

24

70

56

Ba

1055R40#

200#

--

- 82660#

2##

energy

Atomic

(I++)

mass

(ru)

8210

80

125

916470

37x

30

125

907654

12

3670

30

125

907250

30

5

125

903309.5

2.5

5

125

905624

6

125

904281

8

4829

24

125

909465

25

1670f

2OO#

125

911260#

22ot

-2156 l

90

7R

49

127 In

+

- 77010

70

1063740

70

8-

6490

70

126

917320

80

77

50

Sn

+

- 83504

25

1069451

25

o-

3201

24

126

910355

27

76

51

Sb

+

- X6705

6

1071x70

6

8-

15Rl

5

126

906919

7

75

52

Te

- 882R6

4

1072669

4

8-

697

5

126

905221

4

126

904473

5

8:

660

4

126

905182

6

7

74

53

I

- RR9X4

4

1072584

4

73

54

Xe

- RR323

6

1071141

6

72

55

CS

R

1068266

9

!26

90742X

9

71

56

Ba

-

-827X0

100

1064030

100

;+

3450 2092

100

126

911130

110

70

57

La

-

- 779RO#

220a

1058450#

220#

P’

48oO+t

2cot

126

9162ROtL

240#

79

49

12R In

+

- 74000

170

1068ROo

170

160

127

920560

1x0

7R

50

Sn

+

-X3310

40

1077330

40

;’

9310 1290

10

127

910560

40

77

51

Sb

+

- X4600

40

1077840

40

B-

4390

40

127

9091RO

40

76

52

Te

- RR993

3

1081446

4

B-

5

127

904463

4

75

53

I

- 87738

4

1079409

4

P-

4

127

905810

5

74

54

Xe

--89X60.8

1.6

1080749.7

21

127

903531.2

1.7

73

55

CS

- 85926

6

1076033

6

6

127

907755

6

72

56

Ba

+nn

- 8547R

71

57

La

-

-7RRR0

- 86231

l

-1255 2123 l

+

3935

18

1074802

18

;+

44R

19

127

908237

19

400

1067420

400

P’

6600

400

127

915320

430

80

49

129 In

+

-- 73030

170

1075900

170

o-

7600

120

128

921600

1RO

79

50

Sn

+

80630

120

1082720

120

fl-

4ow

120

12R

913440

130

78

51

Sb

+

- R4631

22

lOR5938

22

B-

2377

21

128

909146

23

77

52

Te

- 87008

4

1087533

4

8-

149x

4

128

906594

4

76

53

I

- RR506

4

1088248

4

B-

192

4

128

904986

5

75

54

Xc

- 88697.4

1.9

1087657.7

2.4

12R

904780.1

2.1

74

55

CS

- 87536

14

1085714

14

73

56

Ba

- 85100

14

1082496

14

72

57

La

-

- R1380

50

1077990

50

B’

l

;+ +

2435 1162

14

12R

906027

13

128

908642

15

3720

50

12X

912640

60

15

Xl

49

In

+

- 699904

320#

10809309

320f

p-

10200#

300#

129

924870t

350#

80

50

Sn

+

- R0190

120

1090350

120

P-

2170

70

129

913920

130

79

51

Sb

IT

-X2360

100

1091740

P-

4990

100

129

911590

110

78

52

Te

- 8734R

4

1095944

100 4

11

129

906229

5

77

53

1

- R6897

10

1094711

10

10

129

906713

11

8

129

903509.4

1.7

4

129

906753

9

129

906282

130

+

8-

76

54

Xe

-89881.1

1.5

1096912.7

2.1

;’

75

55

CS

- 86859

8

1093109

8

P-

74

56

Ba

- 87299

8

1092766

8

73

57

La

-

- R1600#

200#

1086280#

200#

72

5R

Ce

--

-794009

3OOL

1083300#

300#

:+ +

-451 -:g 439 .

200#

129

912400#

220#

2200#

360#

129

914760#

320X

4650 8820

200

130 130

926410 916940

260 150

130

911950

80

82

49

131 In

+

-68550

240

1087570

240

81

50

Sn

+

-77370

140

1095600

80

51

Sb

+

- 82020

70

1099470

140 70

8-

31w

79

52

Te

- 85206

4

1101874

4

8-

2249

1103340

5

8-

78

53

I

- 87455

4

77

54

Xe

- 88426

4

1103529

5

16

55

CS

- 88079

6

1102400

7

75

56

Ba

- 86721

8

1100259

8

74

57

La

-

-83760

100

1096520

73

58

Ce

-

- 79860#

22OP

1091840#

loo 220#

;’

120 70 5

130

908528

5

130

906114

5

130

905072

5

5

130

905444

7

8

130

906902

8

970.8

.6

l

;+ +

8

57008

1358 347

/?+

25w

100

130

910080

110

8+

3900s

200#

130

9142709

240#

A.H. Wapsrra, G. Audi / Atomic mass evaluation (I)

N

Z

A

EL

Binding energy

Mass CXCCSS

0

IkeV)

Beta-decay

33

energy

Atomic

WV)

WV)

mass

W)

82

50

132 Sn

+

- 76610

80

1102910

80

3120

50

131

917760

81

51

Sb

IT

- 79730

80

1105250

80

5490

80

131

914410

80

80

52

Te

+

- 85217

21

1109956

21

493

4

131

908517

22

+

22

8-

131

907987

20 11

131

904144

5

13

131

906431

13

131

905042

9

131

910100

50

200#

131

911490#

220#

360#

131

919120#

330#

280#

132

924870#

2306

132

915150

230

200 70

132

910910

80

1760

30

132

907780

30

427 *

3

132

905888

7

132

905429

7

520.5

3.0

132

905988

2ooo#

1004;

132

908140#

llO#

30@3#

220#

132

911360t

22oc

4500#

3OOt

132

916190#

240X

79

53

1

- 85710

20

1109667

21

78

54

Xe

- 89290

4

1112464

5

77

55

CS

- 87160

12

1109552

12

76

56

Ba

- 88453

8

1110063

8

75

57

La

-

- R3740

50

1104570

50

74

58

Ce

-

- 82440#

210#

1102490#

2101

1300*

73

59

Pr

--

- 75340#

3co#t

1094610#

300x

;+

710!3#

83

50

133 Sn

+ +

- 69990#

210#

1104360#

210a

P-

9050#

82

51

Sb

+

-79040

210

1112630

210

81

52

Te

+

- 82990

80

1115800

80

;’

2920 3950

80

53

1

+

- 85910

30

1117930

30

B-

79

54

Xe

+

- 87665

7

1118911

7

8-

78

55

CS

- X8093

6

1118556

6

77

56

Ba

- 87572

7

1117253

7

76

57

La

- 85570t

100%

1114470#

lOO#

75

58

Ce

-~

- 82570#

2OQ#

1110690#

200#

74

59

PI

--

- 78070#

22ot

1105410#

220t

;+

-

;’

-::::

8-

1294 l

8’

+

:+ + +

90

4710

50

7

83

51

134 Sb

+

-74000

150

1115670

150

8-

8410

110

133

920550

170

82

52

Te

+

- 82410

110

1123300

110

P-

1560

90

133

911520

120

81

53

I

+

- 83970

60

1124070

60

F

4150

60

133

909850

60

80

54

Xe

-X8125

7

1127442

8

p-

10

133

905395

8

CS

- 86913

6

1125448

6

8-

133

906696

7

Ba

- 88972

6

1126724

6

30

1122240

30

79 78

55 56

77

57

La

-

- 85270

76

58

Ce

-

- 84870#

llO#

11210603

llO#

75

59

Pr

--

- 78770#

200#

1114180#

200#

74

60

Nd

--

- 75570#

320#

1110200#

320s

84

51

135 Sb

+ -I

- 703106

200#

1120050#

2002

83

52

Te

+

-77850

100

1126810

100

82

53

1

-83813

22

1131984

22

81

54

Xe

- 86509

11

1133897

80

55

CS

- 87668

8

79

56

Ba

- 87873

220#

134

924520#

220t

5960

100

134

916420

110

B-

2696

21

134

910023

23

11

P-

1160

9

134

907130

12

1134275

8

8-

205

5

134

905885

R

6

1133697

6

134

905665

7

134

906953

13

134

909117

19

12

1131715

12

1128917

18

76

59

Pr

-

-80910

200

1124380

200

75

60

Nd

-

-76210X

360X

1118900#

360#

136 l-e

+

-74410

100

1131440

100

+

- 79510

50

1135750

40

- 86431

7

1141890

7

- 86361

6

1141038

- 88909

6

- 86040

l

;+ +

13 10

913140

220

4700#

300#

134

918190#

39Q#

8-

5090

90

135

920120

110

8-

6930

50

135

914650

50

P-

- 70

8

135

907214

8

7

P-

2548.5

2.0

135

907289

7

1142804

6

,!-

70

135

904553

7

70

1139150

70

B-

80

135

907630

80

52

1

82

54

Xe

81

55

CS

80

56

Ba

79

57

La

78

58

Ce

- 86500

50

1138830

50

77

59

Pr

-

- 81380

50

1132920

50

76

60

Nd

-

- 79170

60

1129930

75

61

Pm

--

-71280#

4CKU

1121260#

4OOe

60

85

52

+ +

- 69480#

300#

1134580#

3000

84

53

I

+

- 76500

80

1140810

80

83

54

Xe

-n

- 82385

7

1145916

7

82

55

CS

- 86561 - 87736

6

1149310

6

6

1149703

6

- 87130

50

1148310

50

- 85910

50

1146310

78

59

Pr

-

- 83200

50

1142820

50

77

60

Nd

-

-79400

60

1138240

60

76

61

Pm

-

- 74100#

3100

1132160t

310#

;+ +

2016 1200

134

53

+

;I

200

84

-n

;+

3750

83

Ba

7 30

7540#

18

La

llO# 340#

- 86673

ce

90889OtL

220s

- 84657

56

908460

133

9188701t

-

57

133

lca#

915440#

-

58

904486

133

La

81

133 30

133

Ce

80

+

3700 4Oot

370#

58

79

;+ +

22oc

57

137 Te

.4

l

3200#

78

-

2058.5

6100#

77

+

-1212

-2870 460 *

135

907140

50

135

912640

60

:+ +

2211 5120

25 20

135

915010

60

8’

7890X

400X

135

923480#

430#

7020#

310x

136

925410%

320#

5880

80

136

917870

136

911557

8

136

907073

6

136

905812

6

136

906460

50

136

907780

50

136

910680

50

136

914760

70

136

92045Ott

;’

;’

4177 1175.1 . +

50

610 1222.0

8 1.0 50 1.6

BB’ ;I

3800 2702

40 10

B’

5300#

300#

90

33OP

34 N

Z

A.H. Wapstrq G. Audi / Atomic mass evaluation (I) AELO

Mass w.ccs.s

Binding energy

(kev) 85

53

84

54

138 I Xe

83

55

x2 81

Beta-decay

@=V)

energy

Atomic

WV)

mass

(CU)

+

- 72310

80

1144690

80

B-

7820

70

137

922370

90

+

- 80130

50

1151730

50

B-

2770

40

137

913980

50

CS

- 82900

23

1153720

23

137

911004

25

56

Ba

- 88276

6

1158314

6

;’

225

137

905232

6

57

La

- a6531

5

1155787

5

o-

1044

11

137

907105

6

137

9059a5

12

p:

4437

10

137

910748,

16

loo04

2OOtt

137

911820#

2200

7cm#

2OOt

137

919340#

300#

3800#

450*

137

923420#

4809

+n

-::::

80

58

Ce

- a7575

11

1156048

11

79

59

Pr

-

- 83138

15

1150829

15

7a

60

‘Nd

-

-82140X

200#

1149050#

200#

77

61

Pm

-

- 75140#

280X

1141260#

2801

76

62

Sm

--

- 71340#

4508

1136680#

450x

86

53

+

- 68880

120

1149340

120

6820

100

138

926050

130

85

54

Xe

+

- 75700

60

1155370

60

5020

60

138

918740

60

84

55

CS

- 80715

7

1159607

8

o-

4213

5

138

913349

8

83

56

Be

- 84928

6

1163038

6

8-

4

138

908826

6

a2

57

La

- 87238

4

1164565

5

2310 *

138

906347

5

a1

58

Ce

- 86973

7

1163518

7

138

906631

7

139 I

-

l

;+ 4+

80

59

Pr

-

- 84844

7

1160606

8

;+ +

2129 265

5 3

138

908917

a

79

60

Nd

-

- 82040

50

1157020

50

;+ +

4520 2800

40 50

138

911920

50

78

61

Pm

-

- 77520

60

1151720

60

138

916780

70

77

62

Sm

-

- 72090

160

1145510

160

LJ+

5430

150

138

922600

180

8-

4060

60

139

921620

70

139

917256

17

139

910581

11

139

909471

5

139

905433

4

139

909071

8

139

909306

20

139

915820

50

139

919040#

330#

500#

139

927850#

430x

1CMl

86

54

140 Xe

- 73020

60

1160760

60

85

55

CS

+

- 77076

16

1164039

16

84

56

Ba

- 83294

10

1169474

11

;I

6218 1034

83

57

La

- 84328

4

1169726

5

8-

3761.0

82

58

Ce

- 88089

4

1172705

4

81

59

Pr

-

- 84701

7

1168534

7

80.

60

Nd

+nn

- 84481

19

1167533

19

79

61

Pm

-

- 78410

40

1160680

40

78

62

Sm

-

- 75410f

300#

1156900#

300#

77

63

Eu

--

-67210#

400#

114792Oe

400#

+

10 13 2.0

l

;I + z+ 8’

3388 220 6070 30006 82009

206 300# 40

87

54

141 Xe

- 68360

90

1164180

90

6150

90

140

926610

86

55

CS

- 74515

22

1169549

22

5256

14

140

92WX

23

85

56

BZI

- 79771

24

1174023

24

3230

27

140

914363

26

84

57

La

- 83ooo

25

1176470

25

140

910896

27

83

58

Ce

- 85446

4

1178133

4

140

908271

4

140

907647

4

8-

- 86027

4

1177932

4

-

- 84213

9

1175336

9

140

909594

10

Pm

-

- 80480

30

1170820

30

140

913600

30

Sm

+3n

- 75942

13

1165500

13

140

918473

14

140

924870

50

110

82

59

PI

81

60

Nd

80

61

79

62 63

Eu

-

- 69980

40

1158760

40

88

54

142 Xe

+

- 65550

100

1169440

100

j?-

5040

100

141

929630

87

55

CS

- 70590

30

1173700

30

8-

7317

20

141

924220

30

a6

56

Ba

- 77910

40

1180230

40

f?-

40

141

916360

40

85

57

La

- 80025

7

1181566

7

b-

2120 4517

6

141

914090

8

84

58

Ce

- 84542

4

1185300

5

8-

- 742.7

2.9

141

909241

4

B-

2160.4 .

2.4

4

78

83

59

Pr

- 83799

4

1183775

4

82

60

Nd

- 85959

3

1185153

4

81

61

Pm

-

- 81070

50

1179480

50

80

62

Sm

+nn

- 78986

16

1176615

16

;:

4890 2090

79

63

Eu

-

- 71590

100

1168430

100

;:

7400

78

64

Gd

--

- 67190#

4000

1163250t

400#

4400#

141

910039

141

907719

4

141

912970

50

50

141

915206

17

100

141

923150

110

41OP

141

92787OC

430#

6280 4250

40 40

142

927220

50

142

920480

50

50

50

88

55

143 CS

- 67790

40

1178970

40

87

56

Ba

- 74070

50

1184470

50

86

57

La

- 78320

50

1187930

50

8-

3290

142

915920

85

58

CC

- 81615

4

1190446

4

8-

1461.6

1.9

142

912383

4

a4

59

Pr

- 83077

4

1191125

4

B-

934.5 t

1.9

142

910814

4

142

909810

4

2.9

142

910930

5

914626

12

a3

60

Nd

- 84012

3

1191277

4

82

61

PITI

- 82%9

4

1189452

5

8’

1042.8

81

62

Sm

+n

- 79526

11

1185227

11

,“:

5150 3443

40 11

142

80

63

Eu

-

- 74380

40

1179290

142

920150

79

64

Gd

-

- 68480#

300#

P

SKI09

300#

142

926490X

1172610#

40 300#

40 330#

35

A.H. Wapstra, G. Audi / Atomic mass evaluation (I)

N

Z

A

EL

0

Mass excess

Binding energy

(keV)

(kev)

Beta-decay

Atomic

energy

mass

(au)

WV)

89

55

cs

- 63410

60

1182650

60

P-

8470

60

143

931930

88

56

Ba

- 71870

80

1190340

80

P-

2970

90

143

922840

80

87

57

La

- 74850

110

1192530

110

143

919650

110

86

58

Ce

- 80442

5

1197343

5

143

913643

5

85

59

Pr

- 80760

5

1196880

5

143

913301

5

84

60

Nd

- 83757

3

1199094

4

;’

143

910083

4

83

61

Pm

- 81424

4

1195978

5

8-

82

62

Sm

- 81974

4

1195746

4

144

i’

5600 318.6 -:g:;

1102.0 2.7 3.0

550 *

3

60

143

912588

5

143

911998

4

81

63

Eu

-

- 75645

21

1188635

22

8’

6329

21

143

918792

23

80

64

Gd

-

- 71940#

3cat

1184150#

3cQ#

3700#

300t

143

922760#

320#

79

65

lb

--

-62940#

400#

1174370#

4co#

8’ 8’

9ccQt

500*

143

932430t

4304

90

55

cs

- 60240

70

1187560

70

144

935320

80

X9

56

Ba

- 68040

130

1194580

130

;’

4950 7790

110 130

144

926960

140

R8

57

La

- 72990

100

1198740

100

P-

4120

90

144

921650

110

87

58

Ce

-77100

50

1202080

50

8-

2530

50

144

917230

50

86

59

Pr

- 79636

8

1203827

a

8-

1805

7

144

914508

8

85

60

Nd

- 81441

3

1204850

4

144

912570

4

145

l

84

61

Pm

- 81280

4

1203906

5

144

912743

4

83

62

Sm

- 80660

4

1202503

4

;+ +

620 161.4

2.5 3

144

913409

4

82

63

Eu

-P

- 77998

5

1199059

5

;+ +

2662.2 5050

50 2.8

144

916267

5

81

64

Gd

-

- 72950

50

1193230

50

144

921690

50

80

65

Tb

--

- 662OOt

300#

1185690#

300#

300s

144

92894Ot

320#

8’

6750#

91

55

Cs

-55690

100

1191080

100

P-

9410

90

145

940220

90

56

Ba

-65100

110

1199710

110

8-

4270

110

145

930120

110 120

x9

57

La

- 69370

90

1203200

90

;’

6386 1020

60 30

145

925530

90

88

58

Ce

- 75760

80

1208800

80

145

918670

90

87

59

Pr

- 76780

70

1209040

70

B_

70

145

917570

70

86

60

Nd

- 80935

3

1212415

4

8-

6

145

913113

4

85

61

Pm

- 79450

7

1210147

7

Pm

3

145

914708

7

84

62

Sm

- 80992

6

1210906

6

1542 *

145

913053

7

83

63

EU

- 77114

10

1206247

10

8’

3877

8

145

917215

11

82

64

Gd

- 76100

11

1204450

11

8+

1014

13

145

918304

12

81

65

Tb-

- 67860

150

1195430

150

;+ +

8240

150

145

927150

160

80

66

DY

-

- 62860#

25OC

1189650#

250#

5OOoc

2cQti

145

932520#

270#

92

55

147 Cs

- 52380

130

1195840

130

P-

8880#

5204:

146

943770

140

91

56

Ba

++

- 61260#

510#

120394OP

51ott

5710f

590#

146

9342301

540#

300x

1208870Q

5190#

330#

146

+

4150 -1486

90

57

La

++

- 6697OC

300#

o8-

310s

146

9281006

89

58

Ce

+

- 72160

80

1213280

80

B-

3310

70

146

922530

90

88

59

Pr

+

- 75470

40

1215810

40

Pm

2680

40

146

918980

40

87

60

Nd

-78156

3

1217707

4

B_

895.3

.9

146

916097

4

86

61

Pm

- 79052

3

1217820

4

8-

.4

146

915135

4

85

62

Sm

79276

3

1217262

4

224.6 *

146

914894

4

84

63

EU

- 77555

4

1214759

5

2051 1720.9

232.5

146

916742

4

83

64

Gd

- 75505

23

1211926

23

146

918943

24

82

65

n

- 70960

29

1206599

29

B’

4544

24

146

923820

30

Rl

66

Dy

-64570

70

1199430

70

B+

6390

70

146

930680

80

1092Oe

720#

IT

148 cs

BB+ +

93

55

-47590

370

1199130

370

B-

92

56

Ba

++

- 58510#

620#

120926OC

620#

;I

91

57

La

+

- 6391OC

330#

121388Ott

330#

90 89

58 59

Ce PI

+ +

-70410

140

1219590

140

-72460

100

1220860

100

88

60

Nd

- 77418

4

1225040

4

;I

87

61

Pm

+

- 76874

15

1223714

15

;I

86

62

Sm

- 79346

3

1225404

4

85

63

Eu

-

- 76266

21

1221541

22

84

64

Gd

- 76278

4

1220771

4

83

65

Tb-

- 70670

40

1214380

40

82 81

66 67

DY Ho

- 67980

60

1210910

60

- 583708

300#

1200510#

300s

_.

--

147

948910

400

5400#

6700

147

9371906

660#

65CQ#

300x

147

931390#

360#

2050

100

147

924410

150

147

922210

110

100 14

147

916889

4

21 14

147

917473

16

147

914819

4

147

918125

23

147

918113

4

147

924140

40

8-

p-

-544 4960 -:z 12

21

l

;+ +

2690 5610

40

147

927020

60

8’

%lO#

3009

147

937340#

3309

36

N

A.H. Wapsima, G. Audi / Aiomic mass evaluation (I)

Z

AELO

Mass excess

Binding energy

(keV)

(kev)

Beta-decay

energy

Atomic

WV)

mabs

(au)

93

56

149 Ba

+ +

- 53390#

580#

1212210#

580#

B-

7800#

770#

148

9426Ws

630#

92

57

La

++

-611906

500#

12192309

5OOt

8-

6100#

5804

148

934310#

540s

91

58

Ce

+

- 67290#

300s

1224550#

300t

3700s

300#

14X

92776OtF

320#

YO

59

PI

+p

- 70988

11

1227464

11

BB-

3397

10

148

923192

12

89

60

Nd

74385

4

1230079

4

P-

16X8

3

14X

920145

4

88

61

Pm

- 76074

5

1230985

5

Pm

4

14X

918332

5

X7

62

Sm

- 71147

3

1231275

4

1073 *

148

917180

4

86

63

Eu

- 76452

6

1229798

6

1321 695

6 5

148

917926

7

85

64

Cd

- 75131

5

1227695

5

148

919344

5

84

65

Tb

-a

- 71495

6

1223277

6

14X

92324X

6

83 82

66 67

DY Ho

-

-678Wt

2ooc

1218900X

200#

-61850#

210#

1212070#

93

57

150 La

+ +

- 57RYO#

63OC

92

5X

Ce

+

- 65510#

220 ##

91

59

PI

+

-68590#

200#

90

60

Nd

X9

61

Pm

8R

62

X7

63

86

+nn

:+ + ;+ +

3636

210#

8’

6040

1224010#

630#

P-

76201

1230840#

220t

B_

3080

1233140#

2OO#

3600#

;’

6 zoo*

148

927llOP

,206

50

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4

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1236589

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3

1239261

4

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Eu

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8

1236216

8

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64

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- 15766

8

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85

65

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149

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149

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68

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280#

12155309

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149

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300s

+

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+

969

93

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+ +

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59

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+

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1239780#

300#

3800#

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150

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320~

91

60

Nd

-n

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4

1242193

4

YO 61

Pm

- 73400

6

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63

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74663

3

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Cd

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1242905

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1239557

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5

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150

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4

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4

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+

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+

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60

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30

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30

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61

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+

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3

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3

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4

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6

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200#

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220#

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152

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3

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4

152

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4

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4

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152

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54

Gd

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4

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65

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152

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68

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83

70

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71

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152

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152

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152

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152

958800s

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Mass excess

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energy

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320#

153

926500

110

153

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4

153

922975

4

153

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4

153

924690

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10

153

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153

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153

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220# 3OOa

300#

1261820f

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100

1263730

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1266952

4

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4

1265452

4

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1266639

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1262290

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12

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85

69

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84

70

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82

72

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94

61

155 Pm

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200#

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200#

93

62

Sm

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3

1272759

4

92

63

Eu

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4

1273604

4

91

64

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3

1273074

4

90

65

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13

1271470

13

8’ ;+ +

154 Nd Pm

92

62

Sm

91

63

90

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SO

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210#

153

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580#

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153

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3100s

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220#

154

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154

924636

4

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1.7

154

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4

154

922618

4

12

154

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154

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13

154

929078

25

60

154

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60

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l

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66

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12

1268594

13

88

67

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24

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60

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60

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69

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85

70

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84

71

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-a

83

72

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--

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95

61

156 Pm

+

94

62

Sm

93

63

92

3102 2094.0 3710

30

1253890

30

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310t

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310#

42770#

430f

1238290#

430#

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1229180 #

590#

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Gd

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65

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5

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5

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66 67

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7

1278035

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200#

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2OOc

88

68

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1269940#

2OOc

87

69

Tm

-a

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80

1262120

80

86

70

Yb

-a

- 53380

60

1257750

60

85

71

Lu

-0

- 437201

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1247310#

84

72

Hf

-a

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83

73

Ta

--

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95

62

157 Sm

+

-66870

94

63

Eu

+

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93

64

Cd

92

65

91 90

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89 RX

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5;6

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3200 100 2.1

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mass

(ru) 153

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+

60 61

Atomic

CkeV)

WV)

++

94 93

31

Wapstra, G. Audi / Atomic mass evaluation (I)

5550

60

154

939010

30

6070#

310#

154

945530s

330#

z+ 8’

7970#

310#

154

9540x0s

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590#

154

963030#

6306

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8-

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300#

155

930780#

320#

14

8-

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11

155

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15

155

924752

11

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155

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8

155

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6

155

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155

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220* 2204

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280#

155

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220#

155

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80

155

942690

60

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B+

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155

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500#

B+

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1227940#

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200

1285570

200

7

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7

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3

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4

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4

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4

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7

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8

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1281680

50

68

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-

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90

1277430

90

69

Tm

--

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210#

1272020#

210#

87

70

Yb

-a

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210#

1266060#

210#

86

71

Lu

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220#

1258290#

22oc

85

72

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450#

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84

73

Ta

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155

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156

92X210

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156

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100

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156

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5170#

300#

156

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110

156

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4200

156

958180#

490#

550#

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9380#

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156

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N

A.H. Wapstra, G. Audi / Atomic mass evaluation (I)

Z

AELO

96

62

158 Sm

95

63

Eu

94

64

93 92 91

Mass excess

Binding energy

(kev)

CkeV)

Beta-decay

energy

Atomic

(keYI

+ +

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200t

1291970#

200#

+

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80

1293240

80

Gd

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3

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4

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65

n

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4

1293904

4

8-

66 67

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5

1294060

5

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30

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30

90

6X

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89

69

Tm

--

- 58700+

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1279990#

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88

70

Yb

-a

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16

1276535

16

87

71

Lu

-a

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70

1266970

70

86

72

Hf

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280#

1261250#

280#

157

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157

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3

157

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157

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157

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157

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157

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2204

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200#

157

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17

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70

157

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80

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290#

157

9545909

300#

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540f

157

9667204

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157

974470C

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158

929084

9

158

926384

4

158

925342

4

158

925735

4

158

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8

158

930678

13

P-

2osoc -1221.9 3450

+

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+

220#

85

73

Ta

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540#

1249160#

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84

74

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5800

1241170#

580#

8’

7210#

96

63

159 Eu

- 66059

9

1300119

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95

64

Gd

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4

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4

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365.6

1.0

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65

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4

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4

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4

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4

8:

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7

1298273

7

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91

68

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12

1294722

12

90

69

Tm

-

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1289940 C

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89

70

Yb

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210#

12845209

210#

88

71

Lu

-a

- 49850

60

1277650

87

72

Hf

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310#

86

73

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85

74

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10 6

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158

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220#

60

z+ +

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158

946480

60

1270110#

310f

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310#

158

953740#

330#

430#

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430#

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320+

158

962860s

460#

590#

1251010#

590#

P+

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590#

158

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630#

200#

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200#

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200#

220#

97

63

160 Eu

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64

Gd

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3

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4

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65

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4

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4

15

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66 67

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-

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92

68

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- 66063

28

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28

91

69

Tm

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1000

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90

70

Yb

--

- 58060#

2ciJ#

1294720#

2003

89

71

Lu

--

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3209

1286140#

320#

88

72

Hf

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60

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60

87

73

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86

74

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1262890#

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97

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4

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4

96

65

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4

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4

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3

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4

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mass

CPU)

95 94

66 67

DY Ho

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4

1314282

5

93

68

Er

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11

1311500

11

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159

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1.2

159

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4

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16

159

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4

159

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4 17

l

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+ +

3286 330

30 15

159

928720

159

929080

30

5600#

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159

935090#

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22oc

159

9376700

2209

7800#

370#

159

946040#

340#

4210#

320#

159

950550

60

10320#

410#

159

961630#

440s

650X

159

968480#

540s

160

929664

4

160

927566

4

160

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4

1;6

160

927849

160

929996

12

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1.5

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2E5

4

3200#

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160

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200#

160

937940#

240#

5300#

280#

160

943630#

240#

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310#

160

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230#

7550

130

160

958210#

240x

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160

9671406

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650#

160

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590#

161

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130

60

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161

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60

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4

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3

161

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4

5

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5

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4

161

929092

5

4

1320709

5

161

928775

4

60

1315140

60

2004

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200#

210#

1304670#

210x

17

1300412

17

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210#

1290370#

210#

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1283870#

2800

-a

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1271180#

550#

92

69

Tm

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- 62010#

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1307520t

loo#

91

70

Yb

-

- 578108

220 9

1302540#

220#

90

71

Lu

--

- 52510#

22oc

1296450#

220#

89

72

Hf

--(II

- 46480#

220#

12896404

220#

88

73

Ta

-a

- 38920#

220#

1281310#

220#

x7

74

W

-a

- 30610#

460#

12722103

46Oc

86

75

Re

-a

- 207109

5506

1261530#

550#

98

64

162 Gd

+

- 64260

120

1321750

120

97

65

Tb+

- 65660

60

1322370

96 95

66 67

DY Ho

-68190

3

- 66051

94

68

EJ

- 66347

93

69

Tm

-

-61560

92

70

Yb

--

- 59750#

91

71

Lu

--

- 526601t

90

72

HI

-a

- 49179

89

73

Ta

-a

88

74

W

87

75

Re

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+

:+ :+ +

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60

161

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210#

161

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2901

161

943470s

220#

3480#

210f

161

947204

92703

2109

161

957150#

230#

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350x

161

963290#

300#

550#

161

97606OtL

5904

11900#

60

18

A.H. Wapstr,

N

z

A

EL

0

Mass excess (kev)

98

65

97 96

66 67

95

163 ‘Ib

+

G. Audi / Atomic mm

euahtion

39

(I)

Binding energy

Beta-decay energy

CkeV)

(kev) 1700

Atomic mass (ru) 162

930550

50

162

928128

4

162

928731

4 6

- 64690

50

1329470

50

DY HO

- 66390

3

1330389

4

- 66387

4

1329604

4

68

Er

- 65177

6

1327611

6

94

69

Tm

-

- 62738

6

1324390

7

93

70

Yb

-

-59370

100

1320240

100

92

71

Lu

--

- 54740#

3006:

1314830#

3004

91

72

Hf

+a

- 493902

42O#t

1308700#

420 C

B’

90

73

Ta

--(I

- 4269Q#

210#

1301210#

210#

B’

89

74

W

--o!

- 35150*

310f

12928909

310#

88

75

Re

-Cl

- 26110#

430f

1283070#

430#

X7

76

OS

--D

- 16450#

590#

127263OtL

590#

B+

99

65

164 Tb

+

- 62120

150

1334970

150

98 97

66 67

DY HO

- 65917

3

1338047

4

- 64939

4

1336221

4

/--

96

68

Er

-65952

4

1336458

4

95

69

Tm

-

-61990

20

1331713

20

8’

3962

20

163

933451

22

94

70

Yb

-

-60990#

lca#

1329930#

lOO#

8’

1000x

loO#

163

934530#

llO#

93

71

Lu

--

-54690*

200#

132285OtL

200#

8’

63OQt

22oc

163

94129O$t

220s

92

72

Hf

--

- 51790#

230#

1319170*

230#

29@3#

300*

163

944400#

240#

91

73

Ta

-a

-43440#

380#

1310030*

3801

$

83509

440#

163

953370#

4OO#t

90

74

W

-a

- 38360

60

1304170

60

8’

50809

380#

163

958820

60

a9

75

ue

-a

- 27390#

410%

1292420#

410#

10960#

410#

163

970590#

450#

88

76

OS

-a

- 204601

SoOtt

1284710C

500#

6930#

650t

163

978030t

540#

99

66

165 Dy

-n

- 63622

3

1343763

4

164

931700

4

98

67

HO

- 64908

3

1344267

4

164

930319

4

97

68

EI

- 64531

4

1343108

4

377.1

2.1

164

930723

4

96

69

Tm

-

- 62939

4

1340734

5

1591.8

1.5

164

932432

4

95

70

Yb

-

-60176

20

1337189

21

935398

22

94

71

Lu

-

- 563801

200x

1332610#

200#

93

72

Hf

+a

-51650#

400#

13271M)#

4OOt

B-

a+

*

s+ 8’

50 .6

2.8 1210

5

162

930030

2439

3

162

932648

7 110

3370

loo

162

936270

46306

320#

162

941240#

320f

5350#

520#

162

946980#

460#

6710X

470f

162

954180#

2204

38OC

162

%2270+%

34Oc

3200

162

971970t

47oc

%50#

600#

162

982340#

630#

P-

3860

150

B-

-1037.6 1013.1

163

933320

160

1.4

163

929171

4

2.6

163

930285

4

163

929198

4

l

P-

$

92

73

Ta

--

- 45880#

280 #

1320540#

280#

;:

91

74

W

--(I

- 39020#

220#

13129OOtL

220#

90

75

Re

-a

- 308408

230X

130394Oc

230#

8’

89

76

OS

--u

- 21870#

460 e

1294190#

460#

66

166 Dy

1286.7

1.3

38004 2763

200* 20

164 164

939480f

220#

4730#

450f

164

9445504

430r

5770#

490#

164

950750#

300#

6860#

360s

164

958110#

240#

R180

150

164

96689Ot

250 #

R970#

430f

164

976530s

490#

- 62594

3

1350807

4

P-

486.9

1.4

165

932803

4

99

67

HO

- 63081

3

1350511

4

B-

1853.9

1.1

165

932281

4

9R

68

Er

-64935

3

1351583

4

165

930290

4

97

69

Tm

-61888

12

1347753

12

13

96

70

Yb

-61595

8

1346679

8

95

71

Lu

-

-56120

160

1340420

160

94

72

Hf

--

- 5379Oe

300#

133731otL

300#

93

73

Ta

--

- 46310*

34Ot

1329050#

34Ot

;:

92

74

W

-a

-41899

18

18

;:

91

75

Re

-a

-31910#

2209

1313090#

220#

90

76

OS

-a

- 256409

280#

1306030#

89

77

Ir

-a

- 13170#

5500

1292780#

101

66

167 Dy

+

- 59940

60

1356230

60

100

67

Ho

p2n

- 62292

6

1357794

6

99

68

Er

- 63299

3

1358019

4

loo

-n

1323853

8’

3047

11

165

933561

;:

5480 292

160 13

165

933875

9

165

939760

170

232OC

340s

165

94225Ott

320#

748OC

450f

165

950280#

370#

44209

34Ot

165

955020

9980#

220#

165

965740#

2304

280s

62709

360t

165

972470#:

300#

550s

12470L

55oe

165

985860#

5904

P-

2350

60

166

935650

60

B-

1007

5

166

933127

6

166

932046

4 4

19

98

69

Tm

- 62552

4

1356489

4

1.7

166

932848

98

70

Yb

- 60598

5

1353752

6

4

166

934946

6

96

71

Lu

100

1349840

1M)

100

166

938310

110

-

-57470

3130

95

72

HI

-

- 53470#

220#

1345060#

22ot

200x

166

942600#

240#

94

73

Ta

--

- 48370#

3209

1339180L

32OC

360#

93

74

w

--

- 42370#

370*

1332390#

370#

470#

166 166

94808Oi 954520#

340# 400#

92

75

Re

-a

- 34850#

21ot

1324100S

210x

43oc

166

962590#

230#

91

16

OS

-a

- 26740#

320#

13152M)t

320#

380#

166

97129Ot

340#

90

77

II

-cl

-171409

440x

13048204:

4409

330f

166

9816OIM

470#

P+

%cQ#

A. H. Wapstra, G. Audi / Atomic mass evaluation (I) N

Z

A

EL

0

Mass excess

Binding energy

WV)

Beta-decay

(keV)

101

67

168 Ho

100

1363850

100

100

68

Er

- 62999

3

1365790

4

99

69

Tm

-61321

4

1363329

4

9x

70

Yb

-61578

5

1362804

5

257 *

97

71

Lu

-

- 57110

RO

1357550

RO

4470

96

72

Hf

-

- 55210C

1309

1354870#

130#

95

73

Ta

--

- 4861OC

31oc

134749O#

310#

94

74

w

--

- 44910#

240s

1343010#

240#

93

75

Re

-a

- 35R20#

380s

1333140#

92

76

OS

-a

- 30110

60

1326640

91

77

lr

-a

- 18560tf

42OC

13143109

420#

90

7R

Pl

-a

- 11150#

5co#

1306120#

+

-60280

energy

Atomic

(keV1 2720

mass

(IN 100

167

935290

110

2.0

167

932368

4

4

167

934170

4

167

933894

5

RO

167

93X690

90

19OOr

1000

167

940730#

140#

6600#

32O#

167

94782Oe

330f

3700#

370*

167

95179O#

260f

3x0*

9OXOf

450#

167

96154Oft

410#

60

57104

38fJzt

167

967670

11560#

42Oe

167

YXOOXO#

450#

5006

7410r

650#

167

98XO30#

540#

2125

20

168

936R69

22

16R

034588

4

168

934212

4

- 1678.5

60

102

67

169 Ho

- 58806

20

1370451

20

101

68

EI

- 60931

3

1371793

4

100

69

Tm

- 61282

3

1371362

4

l

99

70

Yb

- 60374

5

1369672

5

908

4

16R

935126

5

9x

71

Lu

-

- 58081

6

1366596

6

2293

3

168

937648

6

97

72

HI

-

- 54730

100

1362460

100

3350

100

168

941240

110

96

73

Ta

--

- 5028OC

2OQ#

135723Oe

200#

4450#

22oc

168

9460200

22oc

95

74

w

+a

- 45020#

350r

1351190#

350#

5260#

400#

168

951660#

3XO#

94

75

Re

-a

- 38450#

350#

1343840#

35oc

6570#

49Ot

168

958720#

370#

93

76

OS

--a

- 30880#

230t

1335480#

2309

7570#

420#

16X

966850#

250#

92

77

Ir

-a

- 22140#

240#

1325960#

24of

8740

170

16X

976230#

250#

91

78

Pt

-a

- 126W#

460#

1315640#

460X

9540#

430#

16X

986470#

500*

Ho

+

- 56250

3R70

50

350.9

1.4

103

67

50

1375960

50

169

939620

50

102

68

Er

-60118

4

137W52

4

- 314.1

1.8

169

935461

4

101

69

Tm

- 59804

3

1377955

4

.9

169

935798

4

100

70

Yb

- 60772

3

1378141

4

968.1 *

169

934759

4

99

71

Lu

-

- 57332

20

1373918

20

20

169

938452

22

98

72

Hf

-

- 56130#

200#

1371940x

200#

12OOP

200#

169

939740#

220x

97

73

Ta

--

- 503306

200#

1365350#

200x

58lwX

280#

169

945970#

2200

96

74

w

+a

-47240#

3000:

1361480#

300#

3090 t

360#

169

949280#

320#

95

75

Re

-a

-39090#

400s

1352550#

4M)#

x150+

5OQ#

169

958040#

42OC

94

76

OS

-a

- 33934

18

1346609

18

5160t

400#

169

963571

20

93

77

Ir

-a

- 23320#

220f

1335210#

220#

106200

220#

169

974970s

240#

92

78

PI

--a

16510#

280#

1327620#

280#

6800#

3601

169

982270#

3001

103

68

171 Er

102

69

101 100

70 71

170

+P

Tm Lu

- 57728

4

1384733

4

1490.7

1.3

170

938027

4

- 59219

3

1385441

4

96.4

1.0

170

936427

4

3

1384755

4

l

170

936323

1382494

4

170

937911

200#

170

940490#

220# 220#

- 59315

Yb -

3440

- 57836

4

1479.6

2.0

3 4

99

72

Hf

-

- 554409

2OOe

13793109

200#

98

73

Ta

--

- 51540#

2OOt

137463OC

2cQ#

39OQf

28OC

170

9446ROC

97

74

w

--

- 47240 t

280#

136955Of

2xoa

43OOtf

350#

170

9492903

300#

96

75

Re

-m

-4134ot

370#

136287OC

370t

589OC

470f

170

955620#

4CG#

95

76

OS

-0

- 34570#

3x0*

135531oc

380#

6780#

510#

170

%2890#

410#

94

77

Ir

-a

26360X

22oc

134632O$t

220#

82103

440+

170

971700#

240#

93

78

Pf

-a

- 17710#

3209

13369OOC

3204

864OC

39Ot

170

980980#

35OP

104

68

172 Er

- 56493

5

1391569

5

891

5

171

939353

5

103

69

Tm

- 57383

6

1391677

7

6

171

938397

7

102

70

Yb

- 59264

3

1392775

4

1880 f

171

936378

3

101

71

Lu

-p

- 56743

4

1389472

5

2520.9

2.5

171

939085

4

100

72

Hf

-

- 56390

50

1388340

50

350

939460

50

73

Ta

-

-51470

190

1382640

190

4920

50 180

171

99

171

944740

200

98

74

w

-

- 48970#

27OP

13793603

270X

250+3#

200#

171

94743oe

290#

97

75

Re

-a

-416800

370#

1371280#

370t

7290#

4604

171

955250s

400X

96

76

OS

--01

- 37260#

240f

1366070#

24Oa

44309

420#

171

960000X

26OC

95

77

Ir

-a

- 27430#;

3x0*

135547OY

380#

9830#

450#

171

970550#

410#

94

78

PI

-a

- 21220

60

6210#

390*

171

977220

60

60

1348480

2400#

A.H.

N

z

AELO

41

Wopstro, G. Audi / Atomic mass euoluotion (I)

Mass excess

Binding energy

(kev)

(kev)

Beta-decay

Atomic

energy

CkeY)

mass

(VU)

200

1396910

200

2500

200

172

942280

210

- 56267

5

1398632

6

1293

5

172

939596

6

- 57560

3

1399143

4

l

172

938208

3

-p

- 56887

4

1397688

4

1.9

172

938929

4

Hf

-

- 55290#

lOO#

1395310#

lOo#

1600#

lOO#

172

940650#

llO#

Ta

-

- 52490#

220#

1391720#

2204

2800#

2car

172

943650#

240s

74

W

-0

- 48710#

220#

1387160#

220#

3780#

320#

172

947710#

240t

75

Re

-a

- 43560f

280X

1381230t

280#

5150#

360#

172

953240#

300*

97

76

OS

+a

- 37540#

350#

1374430#

350x

6OlOC

450t

172

959700#

370x

96

77

Ir

-a

- 30220f

3506;

13663203

3504

7330x

4900

172

96756Ot

3804

95

78

PI

-a

-22100x

240x

1357430t

24Oc

8120#

420t

172

976280f

25otL

94

79

Au

--01

- 12840#

240b

1347380#

240#

9260

180

172

986220f

260#

+

- 53860

50

1404300

50

3090

50

50

- 56953

3

1406607

4

1376.0

- 55577

4

1404449

4

272

- 55849

4

1403939

4

l

105

68

104

69

173 Er Tm

103

70

Yb

102

71

Lu

101

72

100

73

99 98

+ p2n

-53770

105

69

174 Tm

104

70

Yb

103

71

Lu

102

72

Hf

101

73

Ta

-

- 51850#t

lco#

1399160#

loo#

.lOO

74

w

--

-50150t

3oOc

1396670#

3cnt

99

75

Re

+o(

-43610t

350#

1389350f

350#

98

76

OS

+a

- 39950#

3cO#

1384910t

300#

97

77

Ir

--L11

- 31060#

400#

1375240#

4OOC

96

78

Pt

--01

- 25326

19

1368722

95

79

Au

--OI

- 14210t

230t

106

69

175 Tm

- 52300

50

105

70

Yb

- 54704

3

104

71

LU

-55173

103

72

HI

- 54486

102

73

Ta

-

- 52490#

lc@#

14078700

lcQ#

101

74

w

--

- 49590#

200#

14041809

200#

100

75

Re

+u

- 45240#

360#

13990603

99

76

OS

+a

-40070#

310#

1393110#

3809

-p

+

672.3

173

942180

1.8

173

938859

3

4

173

940336

4 4

173

940044

100*

173

944340#

llO#

1700#

320t

173

94616Of

320#

6540#

46oc

173

9531809

380#

3670#

44Ot

173

957120#

3200

8890#

500#

173

966660#

430#

4ooo#

19

5730#

4OOf

173

972811

20

230#

111204

230#

173

984750#

250#

1410810

50

2400

50

174

943850

50

1412430

4

174

941273

3

3

1412116

4

174

940770

3

4

1410648

4

2.9

174

941507

4

zoooft

IOOC

174

943650#

1103

29000

220#

174

946770#

22oe

360#

4350#

420#

174

951430t

390s

310#

5170r

480t

174

956980#

330#

1385650#

380’#

6680#

49On

174

%4150#

410#

1356820#

468.8

1.4

l

686.3

98

77

Ir

-a

-33400#

97

78

PI

-0

- 25960#

38OC

1377430f

38OC

7430*

520#

174

97213OC

410#

96

79

Au

--(I

- 17340#

23OC

1368030X

230#

8620#

440#

174

9813806

24OC

- 8270#

330#

1358170#

330t

9070t

4ca#

174

991120#

350h

- 49600X

200#

1416180#

200#

3900x

200#

220f

95

x0

Hg

-a

107

69

176 Tm

+

175

94675OP

106

70

Yb

- 53502

3

1419299

4

- 107.3

1.6

175

942564

71

LU

- 533946

3.0

1418409

4

175

942679

3

3

1418813

4

1186.1 *

2.2

- 54581

4

105 104

72

Hf

103

73

Ta

-

-51480

100

1414930

loo

102

74

w

--

- 50680#

2caf

1413350t

2Oa#

-

-45180#

2809

14070708

280#

4

175

941406

loo

175

944730

110

8COf

220#

175

94559Of

220f

3100

75

Re

5500#

200#

175

9515001

300#

100

76

OS

+a

- 42030#

280#

1403130#

28OC

315oe

4OOc

99

77

II

-a

- 34020#

370f

13943403

370#

8OlOt

470#

175 175

95488Oc 963480#

300# 4000

98

78

Pt

-a

- 28940s

240#

1388480#

2404

5080#

430#

175

96893Oe

260#

97

79

Au

-a

- 18570#

390#

1377330#

390#

10370t

450#

175

98OIXO#

410#

96

80

Hg

-e

-11890

60

1369860

60

6680#

390#

175

987230

70

107

70

177 Yb

-n

- 50997

4

1424866

4

1398.0

2.0

176

945253

4

106

71

LU

- 52395.4

3.0

1425482

4

497.8

1.4

176

943752

3

105

72

Hf

- 52893.2

2.8

1425197

3

l

176

943217

3

104

73

Ta

-

- 51735

6

1423257

6

1158

176

944460

6

103

74

w

-

- 49730#

lcQ#

1420470#

100x

20008

100x

176

946610#

llO#

102

75

Re

--

-46230#

200s

1416190#

200#

3500#

220x

176

950370#

220#

101

76

OS

--

-41930#

320X

1411110#

320#

4300x

3709

176

954980#

340#

100

77

Ir

-a

- 36ooO#

290#

14044co#

2904

5930#

430#

176

%1350#

310#

99

78

Pt

+a

-29470X

350x

1397080#

350#

6530#

4504

-a

968360t

370#

79

Au

176

98

- 21500#

350#

1388330#

350#

7970#

500x

176

976920#

38OP

97

80

Hg

-a

- 12940#

2404

1378990#

240#

856Oe

430t

176

b8611OP

260#

101

8’

5

42

N

A.H. Wapstra, G. Audi / Atomic mass evaluation (I)

z

A

EL

0

Mass excess

Binding energy

CkeY)

CkeV)

108

70

178 Yb

107

71

Lu

-nn

- 49706

11

+

- 50336

106

72

HI

25

105

73

Ta

IT

-50540

104

74

w

-

103

75

Re

102

76

OS

101

77

Ir

100

78

Pt

99

79

Au

98

80

Hg

108

71

179 Lu

107

72

Hf

106

73

Ta

105

74

w

104

75

103

76

102

77

101

78

100

79

99 98

Bela-decay

1431646 1431493

11 25

1432823

3

loo

1430130

1Oa

-50450

loo

1429260

100

-

-45790

210

1423810

210

--

- 43550f

2201

1420790#

220*

--

- 36290#

29OP

1412750#

290#

--

- 31950#

300#

1407630#

300#

;+

-a

-22580#

400#

13974809

400#

P+

--(I

- 16323

19

1390440

20

+

-49130

40

- 52447.4

2.8

1438350

40

- 50476.0

2.7

1438923

3

+nn

- 50366

6

1438031

6

+n

- 49307

16

1436189

16

Re

-

-46620

50

1432720

50

OS

--

- 43010#

2009

1428320t

2004

Ir

--

- 38020#

310#

1422550#

310#

Pt

+a

- 32350f

300s

1416110#

300#

Au

--(I

- 24990#

380#

1407960%

380#

80

Hg

-a

-17110#

380#

1399300#

81

Tl

-a

380t

1389320#

- 7920#

energy

Atomic

(kev) B-

630

27

177

946639

8-

2112 *

25

177

945%3

+

1910 89.0

mass

(ru)

loo 2.0

11 21

177

943696

3

177

945750

110

177

945840

110

4660

180

177

950850

220

2240#

270#

177

953250#

240#

7260#

340#

177

961050#

310#

4340#

390#

177

%5700#

320#

9370#

500#

171

975760#

430t

P‘

6250#

400X

177

982476

21

8-

1350

40

178

947260

40

178

945812.2

;+ ;+ + +

l

P’

2.9

110

5

178

945930

6

2690 1060

50 16

178

947067

17

178

949960

60

36100

210#

178

953830#

2209

49909

360#

178

959190#

330t

5660t

430#

178

965270#

320#

:+

7360#

490#

178

97317OP

410#

380t

8+

7880#

520#

178

981630s

410#

380t

8’

919aY

530#

178

991500s

4C0#

80

:+ + + ;+

+

109

71

180 Lu

1443990

70

179

949870

108

72

Hf

- 49792.8

2.8

1446311

3

;’

- 31w 853.1

70 3.0

179

946545.7

3.0

107

73

TZI

- 48940

3

1444675

4

o-

708

4

179

947462

4

106

74

W

- 49648

5

1444601

5

105

15

Re

-

- 45850

30

1440020

30

+

- 46690

70

179

946701

5

p”+ +

1510# 3795

2004 30

179

950780

30

179

95239QC

220r

8’

6400#

360#

179

9592604

320#

3610#

410#

179

%3130#

300x 450r

l

104

76

OS

--

- 44350#

200#

1437740#

200#

103

77

Ir

--

- 37950#

3002

1430560#

3co#

102

78

Pt

--

- 34350#

280#

1426170#

280#

101

79

Au

--01

- 25800#

42OC

1416840t

42OC

z+

8550#

510#

179

972310f

100

80

Hg

--(I

- 202608

240*

1410520#

240#

8’

5540#

470f

179

978250t

260#

99

81

n

-m

- 935oc

4909

1398820#

490#

8+

10910#

540#

179

98997OC

520#

109

72

181 HI

-47417.1

2.8

1452006

3

180

949096

3

108

73

Ta

- 48445

3

1452252

4

180

947992

3

107

74

W

- 48259

7

1451284

7

180

948192

106

75

Re

-

- 46560#

loO#

1448800#

100x

105

76

OS

-

-43530#

220s

1444990#

220x

104

77

Ir

--

- 39460#

320#

1440140#

320+

103

78

Pt

-a

- 3438001

320#

1434270#

32OC

102

79

Au

-a

- 27830#

290#

142694Oe

290#

101 100

80 81

Hg n

CP -m

- 20760#

350t

141909O#

3504

;+

-12320#

4bO#

1409870#

460#

110

72

182 Hf

-nn

-46063

7

1458724

7

109

73

Ta

-46437

3

1458315

4

108

74

W

- 48250

3

1459346

4

a07

75

Re

100

1455760

100

181

951210

110

952120

110

IT

-45450

106

76

OS

-

-44600

loo

1454130

100

105

77

Ir

--

- 39150#

2309

1447900#

230f

104

78

Pt

-a

-36180t

230#

1444150#

230f

103

79

Au

-a

- 283301

29Q#

1435520#

290x

102

80

Hg

-a

- 23520#

300#

1429920#

300#

101

81

n

-a

-13550*

500*

1419170t

500#

+

o-

1028.3 .

8:

186

2.7 7

8

1700#

lOO#

180

9500204

llO# 240#

3030

200

180

953270#

4070f

360#

180

957640X

3409

5080X

450s

180

963loOt

3403

6550t

430#

180

97013OQ

310f

7070x

4509

180

977720#

370#

8’

844O#

580#

180

9867708

5009

181

950550

7

;I

1813.6 374 *

181

950149

3

181

948202

;+

+

::

2.0 7

3

;+ + +

2800 850

100 20

181

5450#

2Ogc

181

957970#

240#

;+

2970#

320s

181

96116OL

2404

7850#

340*

181

%9580#

3109

$+

481Osf

3908

181

97475Oft

3201

8+

997oc

580#

181

9854500

540#

+

43

A.H. Wapstra, G. Audi / Atomic mass evaluation (I)

N

2

A

EL

183 HI T-a

0

+ -n

Mass excess

Binding energy

(keV)

O=V)

Beta-decay

-432913

30

1464020

30

- 45299

3

1465249

4

-46370

3

1465537

4

111

72

110

73

109

74

108

75

Re

-

-45814

9

1464199

107

76

OS

-

-4351oc

1OOt

1461120#

lOO#

106

77

Ir

-

- 4032OC

14Ot

145714Ot

140#

10s

78

Pl

-cl

- 3574O#

210x

1451780X

210#

104

79

Au

-a

- 30130t

310#

14453900

310#

103 102

80 81

Hg

n

CP

-a

- 23890#

3004

1438360#

300#

- 1617Otc

430#

1429860X

430#

101

82

Pb

pa

- 77304

380#

142064Of

380#

W

energy

Atomic

(kev)

9

2010 1070.5 f

mass

CPU) 30 19 8

30

182

953530

182

951369

3

182

950220

3 9

182

950817

lcKl#

182

953290#

3190

100

182

956710#

150s

458Ott

250#

182

961630#

220#

5610#

370#

182

%7660#

330#

6240#

430#

182

974350f

320#

7720#

530t

182

982650#

460#

843O#t

560#

182

9917ooQ

410#

556 i3OOa

110s

112

72

184 Hf

+

- 41500

60

1470310

60

1340

50

183

955440

60

111

73

Ta

+

- 42844

26

1470865

26

2866

26

183

954005

28

110

74

W

-45710

3

1472949

4

1492

4

183

950928

3

109

75

Re

-44218

5

1470675

5

39

4

183

952530

5

108

76

OS

- 44257

3

1469931

4

l

183

952488

4

107

77

Ir

-

- 39540

106

78

PI

-a

105

79

Au

104

80

103 102

250

1464430

250

4720

250

183

957560

270

37330#

2OOc

1461440#

200x

22OOc

320#

183

9599208

22ot

--(I

- 302404

310#

1453570#

310%

709oc

370t

183

96754Ot

330#

Hg

-a

- 26260#

280t

1448810#

280#

3980#

420#

183

9718109

300x

Xl

n

-0

170701

430#

1438840#

430#

9190#

SlO#

183

981670f

460#

82

Pb

-a

11060#

240#

14320401

240#

6010#

480#

183

988120#

26OC

1991

14

184

955553

16

184

953416

3

184

952951

3

184

954041

112

73

185 Ta

- 41402

14

1477495

15

111

74

W

- 43393

3

1478703

4

110

75

Re

43826

3

1478354

109

76

OS

3

1476556

108

77

Ir

-

-40310#

200#

1473270#

2009

2500#

2Lwr

184

956730#

22oc

+

-42811

.9

4

432.8 .

4

1015.0

.7

3

107

78

Pt

--

- 36610t

2cQf

1468790f

200#

3700#

280#

184

960700#

2209

106

79

Au

msx

- 3185Oi

320#

1463250#

320X

4760#

380#

184

965800#

340#

105

80

Hg

--LI

- 261709

320#

1456790f

320#

5680#

450#

184

971900#

34Ot

104

81

n

--oI

-19400x

350#

14492404

350a

6770f

470#

184

979170#

380#

103

82

Pb

-a

- 116506

350#

1440710f

350#

7750#

500#

184

987490#

380#

113

73

186 Ta

+

- 38620

60

1482780

60

3900

60

185

958540

60

112

74

W

- 42517

3

1485898

4

- 584.2

2.2

185

954357

4

111

75

Re

-41933

3

1484532

4

1074 5

1.7

185

954984

4

110

76

OS

- 43007

3

1484824

4

l

185

953830

4

109

77

Ir

-

- 39176

20

1480211

20

3831

20

185

957943

22

108

78

Pf

--n

- 37850

110

1478100

110

1320

110

185

959360

110

107

79

Au

--

-31580#

300#

1471050e

3004

6280#

320#

185

9661oOf

320#

106

80

Hg

-n

- 28550#

230f

14672409

230f

3030f

380f

185

%9350#

240#

105

81

n

-0

- 20020#

290x

1457920t

290#

8530#

340#

185

9785103

310#

104

82

Pb

-a

- 14630#

300#

1451750#

3OQ#

5390#

390#

185

984300#

320#

1312.4

186

957153

4

186

955744

3

186 186

955741 957350;

llO#

187 w

113

74

- 39912

3

1491365

4

112

75

Re

- 41224

3

1491895

4

111

76

OS

- 41227

3

1491115

4

110

77

Ir

-

- 39730#

lOO#

1488830#

lOO#

lSoo#

lOO#

109

78

Pt

--

- 36830#

200#

1485150#

200#

29co#

220#

186

9604701

186

964460#

160#

969760f

230#

2.64 .

1.7 a4

3 220#

108

79

Au

-a

- 3311oc

150t

14806503

150#

3720#

250#

107

80

Hg

-a

- 28170#

2lOP

1474930#

2100

4940#

260#

106 105

81 82

n Pb

-a -a

-22130C

370#

1468110#

370#

6040#

420#

186

97624Ot

400#

-15060#

3OO#t

14602606

300#

707oc

4809

186

98383Oe

320#

186

44

N

Z

A.H. Wapstra, G. Audi / Atomic mass evaluation (I) AELO

Mass excess (kev)

114

74

113

75

1X8 w

+

Binding energy

Beta-decay energy

(kev)

CkeV)

- 38676

4

1498200

5

349

Re

- 39025

3

1497766

4

2120.2 *

112

76

OS

- 41145

3

1499104

4

111

77

Ir

- 38350

11

1495528

11

110

78

PI

109

79

Au

-

- 3253OC

300#

148815OC

300*

108

80

Hg

-a

- 30200#

200#

1485030#

2OQ#

107

81

n

--LI

- 22470t

370#

1476510#

370#

106

82

Pb

-a

- 17720#

28OP

1470990#

105

83

Bi

-a

-7380##

44O#

115

74

189 w

114

75

Re

113

76

OS

112

77

Ir

111

7X

PI

110

79

Au

-

109 108

80 Xl

n

Hg

-

107

82

106

Atomic masa (rw 3 .4

1x7

9584130

5

187

958106

3

1x7

955x30

3

10

1x7

95XX30

11

518

9

187

95Y3X6

5300#

3OOa:

1X7 Y65080#

320#

234OC

360#

1X7 Y675XO#

22odr

7730#

4206

1x7

975XXO#

3YOb

2x0*

474Ot

460#

1x7

3006

14598604

440#

10350#

s2oa

1x7

9XOY70# YY2OXO#

200

1503080

200

2500

200

10

1504800

10

9

3

1505026

4

1XX 961900 1XX 959215, 1X8 95x137

210 10

- 38995

lOOR *

- 38460

14

1503709

14

535

14

1XX 958712

15

12

1500965

16

1XX ‘)60X17 lxx 963720s

220#

- 37832

+

-35490

+p

- 37987

- 36499

7

1494227

7

12

2794

1961

- 33800#

200#

149748OC

200#

27OO#

2OOn

7

470#

4 13

--

- 296003

280#

1492500#

280#

4200

200

18X 96X230*

3CQP

-24400#

360#

1486520#

360#

52OOr

360#

lxx

973x10*

3YO#

Pb

--(II

-17YOOc

320#

147924OC

320#

65OOa

490*

lxx

9x07x0*

3506

83

Bi

--LI

3508

1470270#

350#

8190#

48Of

lxx

YXY570#

3uoa

116

74

190 W

I89

115

75

Re

114

76

OS

113

77

Ir

- 9710#

+

- 34270

210

1509930

210

1270

70

963210

230

+

-35540

200

1510420

200

3180

200

1X9 Y61X50

210

3

1512819

4

200

1X’) 95X436

200

151oo40

200

200

189

9605X0

1x9

Y59917

7

15

1X9 964685

18

- 38717 -

-36720

-2m

4

112

7X

Pt

- 37338

7

1509875

7

620 t

111

79

Au

-

- 32896

16

1504651

17

4442

110 109

80 81

Hg n

-

-31300*

1001

150227OC

lOQ#

16004L

lOO#

1X9 9664OO#r

llO#T

- 247OOC

320#

149489oC

320L

66009

300*

1x9

340#

1XY 97x070* 1x9 YXX480#

10X 82

Pb

-a

- 20430#

230X

1489830#

230#

4270f

390s

107

83

Bi

--(I

- 107309

310x

1479360#

310#

9700#

350#

+p

116

75

191 Re

115

76

OS

114

77

Ir

113

78

Pf

+n

112

79

Au

111 110

80 Xl

n

Hg

109 108

X2 83

Pb Bi

117

75

192 Re

116

76

OS

115 114 113 112 111

77 78 79 80 81

Hg

330t

- 34361

11

1517317

11

4

1518577

4

- 36716

4

1518107

4

190

960584

- 35710

8

1516318

8

1006

7

190

961665

8

-

- 33880

50

1513710

50

1830

50

190

963630

50

-

- 30540

2042 312.7 .

10 1.9

1YO 963112 190 960920

12 4 4

70

1509590

70

3340

50

190

%7210

- 262404

310#

150451oc

310#

43co#

300#

190

971830#

-a

- 20340#

220t

1497820#

22ott

5YOO#

3RO#

190

97X160#

24Oe

--01

- 12940#

370#

1489630#

370#

7410%

430f

190

YX6llOtL

4CO#

+

-31790x

200#

1522820#

200#

4100#

200*

220#

-

- 35893 - 34857 -36311

PI

n

240 0

- 36403

Ir Au

973490*

210

-

+o

- 32796

4 5 5 17

1526138 1524319 1524991 1520694

5 6 5 17

- 1037 1454.0 t 3515

X0 330a

191

965870f

5

191

961467

2.4

191

962580

191

961019

5

16

191

964793

18

965650#

4 6

- 32CK@#

200#

1519110#

200#

800#

ZOOI

191

- 259709

710#

1512310#

710#

6020#

730#

191

97212OP

760#

1508100#

2OQ#

34204

730t

191

975790#

22oc

22oe

110

82

Pb

-a

-22550a

2009

109

83

Bi

-a

- 136Oa#

380#

14983701

380#

8950#

430#

191

9854ca#

410#

108

84

PO

--(I

- 7980#

280#

1491960#

28OC

562Otf

4700

191

YY144Of

310#

117

76

193 OS

- 33406

4

1531722

5

192

964138

4

116

77

II

- 34543

4

1532077

5

192

962917

4

115

78

Pf

- 34487

4

1531238

5

192

%2977

114

79

Au

-

- 33490*

lOo#

1529460#

lOO#

192

%4050#

1109

113 112

80 81

Hg

-

- 31150*

lOQ#

- 27460

210

111

82

Pb

--

- 222508

110

83

Bi

-a

109

84

PO

--L1

n

+u

1137

4

l

56.27

.30

4

lOO#

lOOO#

15263408

llO#

2339

30

192

966560#

llO#

1521870

210

368OC

230#

192

970520

220

32OP

1515870#

3209

522OC

380d

192

976120s

34OP

- 15660#

370#

15085Oa#

370#

6580#

490#

-8370X

330a

1500130#

3309

7290#

500#

192 192

983180# 991010#

400# 350x

45

A.H. Wapstra, G. Audi / Atomic mass evaluation (I) N

Z

AELO

194 OS

+

Mass excess

Binding energy

CkeV)

(kev)

Atomic

energy

(kev)

mass

(au)

- 32441

5

1538829

5

97.0

2.0

193

965173

5

- 32538

4

1538144

5

1.8

193

965069

4

- 34787

4

1539610

5

2248.6 *

- 32278

16

1536319

16

25

1535496

25

lYo#

1529570#

lYo#

51506

3wc

1525930#

3004;

33oc

15171709

330#

23OC

1511140#

3oo#

118

76

117

77

116

78

PI

115

79

Au

-

114 113

80 81

HR n

+a

- 32238 - 27090 #

112

a2

Pb

--

- 242409

111

a3

Bi

-a

- 1626O#

110

a4

PO

--(I

- llOlO#

109

a5

At

-_p

119

76

195 OS

118

77

Ir

117

78

Pt

116

79

Au

115 114

80 a1

113

Ir

Beta-decay

- RlO#

2509

193

962655

4

15

193

965348

17

20

193

965391

27

lYo#

193

970920#

200%

28506

360#

193

973980#

320#

7980X

450#

193

98254O#

36OC

230f

5250#

4OO#

193

988180#

240t

15OO160#

3oo#

102oo#

350f

193

999130a

320#

zoo0

500

194

968110

540

13

194

965966

14

194

964766

4

194

965013

5

194

966640

50

40

+

-29700

500

1544160

500

+

- 31702

13

1545379

14

32821

4

1545715

5

-

- 32591

4

1544703

5

HR n

+a

- 31070

50

1542400

50

- 28290

150

1538830

150

2780

160

194

969630

170

82

Pb

--

- 23770#

300#

1533540#

3cQ#

45201

34oc

194

974480#

330#

112

a3

Bi

--(I

- 17980#

320#

1526960#

320#

5Roo#

450#

194

980700#

350#

111

84

PO

--L1

- 111706

220#

15193704

220#

6810#

39oe

194

988010#

24O#

110

a5

At

--~1

- 3110#

420#

1510530*

420#

8060#

470h

194

9966604

450#

120

76

196 OS

119

77

Ir

118

78

117

1118 * 230.0 1520

1.0 50

- 28300

40

1550830

40

1160

70

195

969620

40

29460

60

1551210

60

3210

60

195

968370

60

Pf

- 32671

4

1553637

5

- 1506

3

195

964926

4

79

AU

-31165

5

1551348

6

3

195

966544

6

116 115

80 a1

HR Tl

-31851

5

1551252

6

686 .

195

965807

+01

114

a2

Pb

113

83

Bi

112

a4

111

+cpp +

5

- 27520#

14o#

1546130#

14o#

434ot

14o#

195

970460#

15Of

--

- 25450#

200#

1543290#

2oo#

206Ott

250#

195

972680#

22oc

+a

-17990

700

1535o40

700

7460f

7301

195

980690

750

PO

--L1

- 13470#

200#

152974Ot

2oQ#

45209

730f

195

985540#

22oc

a5

At

--n

- 3970#

380#

1519460#

380#

Y500#

430#

195

995730#

410#

120

77

197 Ir

21

1558110

21

20

196

969629

22

119

78

PI

-30446

4

1559483

5

196

967315

4

118

79

AU

~31165

4

1559420

5

l

196

966543

4

- 30565

5

155803X

6

600

3

196

967187

6

60

1555110

60

2150

60

196

969490

60 220#

tp

- 28290

2156 719.0

.6

117 116

80 81

HR n

+a

- 28420

115

a2

Pb

-

- 24820#

210#

1550720#

210#

3600s

200#

196

9733604

114

a3

Bi

+u

- 19670

180

1544790

180

5150#

260 d

196

Y78880

190

a4

PO

PIT

- 13410#

320#

1537750#

320#

6260#

370#

196

9856OO#

350#

a5

At

--OI

-6140#

380#

15297001

380#

7280#

5oo#

196

993410#

410#

+

- 25930#

200#

1563820#

2oo#

4CW#

200#

197

972160s

220t

-n

- 29930

6

1567039

6

197

967869

197

968217

4

197

966743

4

113 112

121

77

198 Ir

120

78

Pf

119

79

A”

- 29606

4

1565932

5

- 30979

4

1566523

5

27520

80

1562280

80

118 117

80 Xl

HR n

116

82

pb-

- 261209

130#

156OlOO#

130#

115

83

Bi

+a

-19570

160

1552760

160

114

a4

PO

--01

- 155oo#

300#

15479201

300#

113

85

At

mu

-694OP

34ot

1538570#

34o#

121

78

199 Pt

120

79

-

-n

- 27430

19

1572610

20

AU

- 29119

4

1573516

5

80 al

HR n

- 29571

4

1573186

5

- 28070

220

1570900

220

117

a2

Pb

+m

- 25270

80

1567320

116

83

Bi

+01

- 20940

120

1562210

115 114

84 a5

PO

--(I

- 15270#

3cQ*

1555760X

3oo#

At

--LI!

- 8770s

330#

1548480#

113

86

Rn

--LI

-1610X

230#

154o530#

119 118

+

- 324

4

1372.6 . 3460

.6

6

80

197

970460

Yo

14ooP

loo#

197

971960#

14o#

6550#

210#

197

979QcQ

170

4O6O#

3409

197

98336o#

320#

856OC

450#

197

992550t

36o#

19

198

970552

21

198

.%X740

4

198

%X254

4

969870

230

1688 452.6 *

.7

1500

220

198

80

2800

200

198

972870

90

120

4320

130

198

977520

130

5670# 65004;

3301

198

983610#

330t

330#

450#

198

9YOSRO#

350#:

230#

7160#

4OO#

198

998270#

250#

46

N

Z

A.H. Wapstra, G. Audi / Atomic mass evaluation (I) AU0

Mass excess

Binding energy

WV) 122

78

200 Pt

121

79

Au

120 119

RO Rl

HR ‘II

118

82

117

83

116

Beta-decay

CkeV)

-nn

- 26625

21

1579877

21

8-

+

- 27320

50

1579790

50

8-

- 29529

4

1581215

5

-

- 27075

9

1577979

9

Pb

-

- 26270+

100x

1576400#

lM)#

Bi

+a

-20410

loo

1569750

100

84

PO

-a

- 17040s

200#

15656tXW

200#

115

85

At

+a

-8970

700

1556740

7M)

114

86

Rn

--LI

-4000f

200#

1551000#

200#

123

78

201 Pt

122

79

Au

121 120

80 81

HR n

+nn

energy

Atomic

CkeV)

maw

(W)

690

50

199

971417

22

2210

50

199

970670

50

199

968300

4

199

970934

10 110x

l

p:

2454

lOO#

199

971790#

;+ 8:

5860#

140#

199

978090

110

3370a

230P

199

981700#

220#

R0800

730f

199

990370

750

;+

4960#

73oe

199

9957OOt

2204:

RoO#

8

+

- 23750

50

1585080

50

8-

2660

50

200

974500

60

+P

- 76413

16

1586953

16

8-

15

200

971645

17

- 27687

4

1587445

5

1275 *

200

970277

4

- 27205

16

1586181

16

;+ +

14G

40 15

200

970794

17

200

972830

40

88+ +

3810

70

200

976930

60

4903c

2OO#

200

982190#

220#

119

82

Pb

+a

- 25300

40

1583500

40

118

83

Bi

+a

- 21490

60

1578900

60

117

84

PO

-a

- 16590#

210#

1573220#

210#

116

85

At

+a

- 10770

180

1566620

180

5820#

2609

200

988440

190

115

86

R4

-a

-4120#

330#

1559190*

3308

;+

6650#

370#

200

99557ot

3504

114

87

Fr

-a

3830#

380#

1550450#

3809

8’

7950x

500#

201

Oa4110#

410#

123

79

202 Au

+

- 24370#

200#

1592980#

200L

8-

3OGQc

200#

201

973840#

220#

122 121

RO Rl

HR

- 27370

4

1595200

5

201

970617

4

n

- 26003

17

1593050

18

972085

19

120

82

Pb

- 25957

11

1592222

11

119

83

Bi

+a

- 20810

70

1586290

70

118

84

PO

-a

- 17990#

130#

1582690#

1309

117

85

At

+a

-10790

160

1574700

160

116

86

Rn

-a

300#

1569440#

300#

115

87

Fr

-a

3509

1559280#

350#

+p

-6310# 3080X

-23153

+

l

B+

1367

17

201 201

972134

11

z

5150 46 2820#

70 l8 150x

201

977660

70

201

9RO680#

140x

gr

7210X

2lOf

201

988420

170

4480#

34Oc

201

W3230#

320#

8’

9380#

460#

202

003300#

370#

202

975145

17

;I

2140 491.8 .

151.8

202

972R48

5

202

972320

5

974

8

202

973365

9

202

976830

40

124

79

203 Au

16

1599836

16

123 122

80 81

HR n

- 25292

5

1601193

5

-25784

4

1600903

5

121

82

Pb

- 24811

9

1599147

9

120

83

Bi

-21590

40

1595140

40

119

84

PO

+a

- 17350

80

1590120

80

;:

4240 3220

40 70

202

981370

90

118

R5

At

+a

- 12310

120

1584300

120

;:

5040

130

202

986790

130

117

86

Rn

-a

-6220X

300#

1577420#

300#

116

R7

Fr

--u

330#

1569500#

330#

125

79

204 Au

300

1604970

300

124 123

80 Rl

HR n

- 24716

4

1608688

- 24369

4

122

82

Pb

- 25132

121

83

Bi

+a

- 20740

+

930x

-20220

120

84

PO

-a

- 1836OtL

119

85

At

+a

- 11920

118

86

Rn

117

87

Fr

--OI

- 8070# 630

Ra

-a

205 HR

-n

6020#

P’

609OP

330t

202

993330#

330*

8’

7150#

450#

203

OolOOOC

360#

203

978300

320

5

;I

- 4500 346.9

3001.9

203

913467

5

1607559

5

8-

203

973839

5

4

1607540

5

203

973020

5

40

1602360

40

203

977740

50

1009

15992105

lOO#

90

1591980

90

763.41

.20

l

;:

4390

40

2370b

llO#

9802806

llO#

$

6450#

13041

203

987210

100

991330#

220#

203

200#

1587350X

2009

3840#

220#

203

6%

1577870

690

8+

8700#

720X

204

000670

750

1571690#

280f

8’

539Q#

750#

204

006460#

310t

B-

1534 *

280#

116

RR

125

80

- 22312

7

1614355

7

124

Rl

l-l

-23846

4

1615107

5

123

82

Pb

- 23792

4

1614271

5

8+

122

83

Bi

- 21085

8

1610781

8

B+

2708

;:

4510 3530

70 30

53.5

204

976047

7

204

974401

5

1.6

204

974458

5

7

204

977365

9 40

5

121

84

PO

+a

- 17560

30

1606470

30

204

981150

120

85

At

+n

- 13050

60

1601180

60

204

986ooo

119

86

Rn

-a

220#

1595130*

220#

204

991650X

230#

118

87

Fr

117

88

Ra

- 7780# -1290

-a

5800#

60

170

1587860

170

$

64909 52709

260# 210#

204

998610

190

340#

15799804

340#

8’

7090 #

38Of

205

006230#:

370#

41

A.H. Wapstra, G. Audi / Atomic mass evaluation (I)

N

Z

A

EL

0

Mass excess

Binding energy

CkeV)

CkeV)

Bela-decay

energy

Atomic

(kev) 1309

205

977489

205

976084

5

205

974440

4

205

978478

12

205

980456

11

70

205

986580

70 140#

20

- 20969

21

1621084

21

- 22278

4

1621611

5

- 23809

4

1622359

5

- 20048

11

1617816

12

- 18206

11

1615191

11

;I +

3761 1843

14 11

-12500

70

1608700

70

;+

5700

- 91RO#

130s

1604600#

130#

- 1440

160

1596080

160

300#

1590320#

3OOc

- 16270

150

1624460

150

- 21048

6

1628452

7

Pb

- 22476

4

1629097

5

126 125

80 Xl

206 Hg n

124

82

Pb

123

83

Bi

122

a4

PO

121

a5

At

120

86

Rn

-a

119

a7

Fr

IT

118

RR

Ra

--OI

127

a0

126

81

n

125

a2

207 Hg

+a

-

+

3540#

l

22

3320#

150#

205

990140#

7750s

21ot

205

998460

170

:+

49701t

340#

206

003800#

320s

206

982530

160

$1

4770 1427 .

1506

206

977404

7

206

975872

4

+

+

2397.R

2.1

206

978446

5

2910

a

206

981570

10

206

985730

40

80

:+ +

4620 3880

40 70

206

990690

90

1605690

110

:+ +

5690

120

206

996800

110

1598450#

310#

6460#

330f

207

003740#

330*

4

207

981988

6

207

976627

4 5

83

Bi

- 20078

5

1625917

5

84

PO

- 17168

9

1622225

9

122

a5

Af

- 13290

40

1617560

40

121

X6

Rn

- 8670

80

1612170

120

87

Fr

- 2980

110

119

RR

Ra

--(I

310#

127

Rl

208 TI

+a

126

R2

Pb

125

83

Bi

124

84

123

34RO#

1.6

;+

124 123

-

1531.2

mass

(au)

8-

4994

- 16778

5

1632253

6

- 21772

4

1636465

5

+n

- 18894

5

1632804

5

B’

2878.5

2.1

207

979717

PO

-Cl

- 17492

5

1630620

5

8’

1402.0

2.9

207

981222

5

a5

At

+o(

- 12560

40

1624910

40

8+

4930

40

207

986510

50

122 121

a6 87

Rn

--(I

- 9680#

1oOP

16212409

100x

P:

28ROtt

1106:

207

98%10#

llO#

- 2720

70

1613500

70

696OtL

130#

207

997080

80

120

88

Ra

200#

16083701

200#

;+

435otL

210#

208

001750#

220s

128

Xl

- 13662

12

1637208

12

B-

3976

12

208

985334

13

127

R2

Pb

- 17638

4

1640402

5

8-

20a

981065

5

126

83

Bi

- 18282

4

1640264

5

2OR

980374

5

125

84

PO

- 16391

5

1637591

5

B+

lR90.9

20R

982404

5

124

85

AL

- 12902

a

1633320

9

;: +

5130 3930 3489

208

986149

9

123

86

Rn

- 8970

30

1628610

30

208

990370

40

Fr

209 n

--(1!

+oI

--LI -

1630#

122

87

Fr

60

1622700

60

121

88

Ra

--01

1790#

220#

1616280#

220#

120

a9

AC

--01

8870

180

1608420

1RO

210 n

-3840

129

81

- 9263

13

1640881

13

128

82

Pb

+P

- 14752

4

1645588

5

127

83

Bi

- 14815

4

1644869

5

l

644.4

208

995870

60

209

0019308

240#

BB+

70701

2604

209

009520

190

8-

5490

12

14

;’

1161.5 63.1

PO

- 15977

4

1645248

5

a5

At

--u

- 11992

11

1640480

12

124

86

Rn

--u

- 9623

11

1637330

11

;+ +

2368 3985

123

X7

Fr

3410

50

1630330

50

;+ +

6220

122

RX

Ra

--OL

121

89

AC

--01

129

82

128

R3

1625740X

130#

170

1616760

170

211 Pb

- 10493

4

1649400

Bi

- 11872

6

1649997

1.0 .5

*

84

130#

70 30 8

210#

125

4004;

2.6

56403

+

126

8590

1.1

l

209

990056

209

984163

5

209

984095

5

209

9821G18

209

987126

15 11

209

989669

12

60

209

996340

60

4 12

38OOt

14Oc

210

0@3430#

140#

B’

8200X

210#

210

009230

180

4

8-

1379

6

210

988735

4

7

B_

584 *

6

210

987255

7

210

986627

5

88+ +

2894 784

9 3

210

987469

5

210

990576

11

4570

40

210

995490

40

127

R4

PO

--LI

- 12457

4

1649799

5

126

85

At

--OI

- 11672

5

1648232

6

125

86

Rn

--LI

- 8779

10

1644556

10

124

87

Fr

- 4200

40

1639200

40

8’

123

88

Ra

--CI

800

80

1633420

80

8’

5000

70

211

ooO860

90

122

89

AC

--(1

7070

120

1626360

120

/3+

6270

130

211

007590

130

48 N

Z

130

x2

129

X3

A.H. Wapstra, G. Audi / Atomic mass evaluation (I) A

212

EL

0

Mass excess

Binding energy

WV)

(keV)

Beta-decay

energy

Atomic

CkeV)

Pb

- 7572

6

1654550

6

Bi

- Xl46

5

1654342

6

8-

574

12x

x4

PO

- 10394

4

1655808

5

;I

-1754.1 2248

127

x5

At

-a

- 8640

5

1653271

6

8-

126

X6

Rn

--LII

- X6X2

6

1652531

6

42 .

mass

(ru) 4

211

991x71

6

211

991255

6 4

42.9

211

988842

5

211

990725

5

211

990679

6

125

x7

Fr

124

XX

Ra

-a

123

X9

AC

--(I

7230

90

1634280

90

8+

122

90

Th

-m

12Oco9

2000

1628720#

2cnr

8’

Pb

+

16583004

lOO# 9

212

992833

6

212

992911

14 10

213

- 3610 - 220r

40 lOO#

1646680 1642510X

40

,“I

lOO#

5070

40

211

996130

50

3390#

llO#

211

9997600

llO#

745oc

13oe

212

007760

100

47x01

22oc

212

01289OtL

220#

212

996510#

llO#

212

994359

131

X2

- 3250t

loo#

lOo#

8-

2OQo#

130

x3

Bi

- 5254

11

1659522

11

8-

129

X4

PO

- 6676

5

1660161

6

1422 *

12x

x5

At

-a

- 6603

13

1659306

13

-a

- 5723

9

1657644

10

- 3573

9

1654711

9

310

30

1650040

127

X6

Rn

126

X7

Fr

125

XX

Ra

124

X9

123

90

.Ac l-h

214

-m

X80 73

13 15

212

993856

B+

2150

11

212

996165

9

30

8’

3880

30

213

000330

40

;:

59709 5770

220# X0

213

cm6530

x0

213

012940#

240#

-a

6090

80

1643490

RO

-a

1206oc

230#

1636740#

230#

132

X2

131

83

130

84

PO

129

X5

At

-a

;:

11

Pb

-1x79

1663309

4

B-

1032

12

213

994798

3

Bi

- 1219

12

1663558

13

8-

3274

12

213

998691

13

- 4494

4

1666050

5

B-

4

213

995176

5

- 3403

6

1664177

6

8-

939 *

11

213

996347

6

213

995338

12

3362

16

213

99X94X

13

2.x

-1091

12X

X6

Rn

--Q

- 4342

11

1664334

11

127

X7

Fr

--(I

- 9x0

12

1660189

13

8’

126

XX

Ra

-a

74

12

165X353

12

8’

1054

16

214

oooO79

13

125

x9

AC

-a

6370

70

1651270

70

P’

6300

70

214

CO6840

80

124

90

Th

--a

10650*

130b

1646210#

130#

P’

42XOt

1501

214

011430#

140#

Bi

+(I

1710

100

1668700

100

215

001830

100

- 542

4

1670169

4

;I

2250 727

1007

214

999419

4

214

998638

8

11

214

998720

10 11

132

X3

131

x4

215

PO

130

x5

At

--OI

-1269

7

1670114

8

129

X6

Rn

-a

-1192

9

1669255

9

12x

87

Fr

--OI

2X9

10

1666992

11

8’

14x1

13

215

ooO310

1’7

xx

Ra

-a

2510

11

166398X

11

;:

3460 2221

70 14

215

MI2695

12

126

X9

AC

-a

5970

60

1659750

60

215

co5410

70

125

90

rh

-a

10x90

loo

1654050

100

215

011690

100

124

91

Pa

--o(

17660

130

1646490

130

215

0111960

140

Bi

+

100,

1672520#

100s

llO#

216

59604

l

p+

;:

8-

77

6770 4920

150 100

4200X

100x

216

0064004

5

216

001889

1994 *

11

216

002390

6

216

ooO249

12

216

003178

14

;:

2728 308

15 16

216

003509

11

40

8’

4790

40

216

008650

50

1662730#

1OOL

8’

222oc

llO#

216

0110306

llO#

100

1654560

100

8’

7390#

140#

216

018960

110

5830#

1004

1679940#

loO#

1460#

lOo#

217

0062609

1104

4373

11

1680616

11

10

217

004694

12

--u

3634

6

1680571

6

738 I

217

003902

6

--(I!

4293

15

1679130

15

659

15

217

004609

16

217

006294

13

133

X3

132

X4

PO

1759

6

1675940

6

B-

131

X5

At

2226

6

1674690

6

8-

130

X6

Rn

-a

232

11

1675902

11

129

X7

Fr

-a

2960

13

1672392

13

12x

xx

Ra

-a

3269

10

1671301

10

127

x9

AC

-m

8060

40

1665730

126

90

Th

-a

10270#

1000

125

91

Pa

-e

17660

133

84

217 PO

132

85

Ai

131

86

Rn

130

87

Fr

-cz

;I

8’

-467

13

6

129

XX

Ra

-a

5863

12

1676778

128

X9

AC

-a

X684

13

1673175

14

2821 1570

17 19

217

009322

14

127

90

nl

-a

12160

40

1668920

40

3480

40

217

013050

40

126

91

Pa

-a

17000

90

1663290

90

4840

100

217

018250

100

;+ +

49

A.H. Wapstra, G. Audi / Atomic mass evaluation (I)

N

Z

A

EL

0

Mass excess

134

84

133

85

218

At

-a

Atomic

energy

WV)

WV)

mass

(PU)

1685490

4

263

13

218

008966

3

8089

13

1684971

14

2891

13

218

008684

14

218

005580

5

-1838 407

1:

218

007553

7

218

007117

15 60

8351.7

PO

Beta-decay

Binding energy

(ke’0 2.8

132

86

RIl

5198

5

1687079

5

131

87

Fr

-a

7036

6

1684459

7

130

88

Ra

-a

6630

14

1684083

14

129

89

AC

-a

10820

50

1679110

50

218

011620

128

90

Th

-a

12346

16

1676802

16

:+ +

4190 1520

50

218

013253

17

127

91

Pa

-a

1X590

90

1669780

90

B’

6240

90

218

019960

100

+a

10520

80

1690610

80

219

011300

90

8829

4

1691519

4

;I

1700 220 *

808

219

009479

4

219

009242

9

;+ +

2180 755

50 15

219

010053

15

219

012390

50

;+ +

4040# 2910

70

219

015510

60

220#

219

019850#

230#

lOO#

llO#

134

85

219 At

133

86

Rll

132

87

Fr

--(I

8609

8

1690957

9

131

88

Ra

-a

9365

14

1689419

14

p-

l

130

89

AC

-a

11540

50

1686460

50

129

90

Th

-a

14450

50

1682770

50

128

91

Pa

-a

1849Ott

210#

1677940#

210#

135

X5

At

+

142WC

loo#

1694910f

100s

0153404

86

Rn

10589

6

1697831

6

BB-

220

134

- 862

5

220

011368

133

87

Fr

11451

7

1696186

7

P-

1201

16

220

012293

7

132

88

Ra

-a

10250

15

1696605

15

220

011004

16 60

220

l

131

89

AC

-a

13730

50

1692340

50

8’

130

90

Th

--LI

14646

23

1690644

23

;+ +

129

91

Pa

-*

2018OP

210#

1684330#

210#

135

86

221 Rn

-a

1441oc

1004

1702090#

lOO#

134

87

Fr

13255

11

1702454

11

Ra

--(I

12938

8

1701989

8

pa

14500,

50

1699640

50

13

1696446

14

200#

1692270#

200#

133 132

88 89

AC

131

90

l-h

-cl

16916

130

91

Pa

-a

203101

136

86

222 Rn

1708196

4

135

87

Fr

16360

50

1707420

50

134 133

88 x9

Ra

14301

6

1708697

6

AC

-a

16603

7

1705613

i

132

90

Th

-a

17183

16

1704250

16

131

91

Pa

-0

21940

70

1698710

16367.0

2.8

;’

24

5540#

210#

220

021670#

220f

1150#

loo#

221

015470*

llO#

317 .

11

221

014230

12

221

013889

8

221

015570

60

221

018160

221

0218OO#

222

017571

3

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2060 10 *

50

222

017560

50

222

015353

6

;+ +

2302 580

16 7

222

017824

7

222

018447

17

70

BC

4760

70

222

023560

80

B-

1147.6 I

223

019733

4

223

018501

Bf

584

8

223

019128

9

3070 1426

70 18

223

020659

18

223

023950

80

18381

4

1713471

4

17234

4

1713836

4

134

89

AC

-a

17818

8

1712469

9

133

90

lb

--(I

19243

17

1710261

132

91

Pa

--(I

22310

70

1706410

17 70

Fr

t

p”’+

137

8-l

21630

50

1718290

50

136

88

Ra

18803

6

1720338

6

;’

135

89

AC

20200’

7

1718159

7

8-

134

90

rh

--LI

19980

18

1717596

18

133

91

Pa

--(I

23780

70

1713010

70

Fr

23840

90

1724160

Ra

21987

3

1725225

90 4

225

015724

50

Ra

87

014740

220

200#

Fr

88

220

60

3390#

87

138

50

910

2410 1570

88

137

3480

8’

136

224

6

;+ +

135

223

3700#

2.8

14 220#

4

224

023220

50

505

224

020186

6

220 I

19

224

021685

7

224

021449

19

8+

3800

70

224

025530

80

225

025590

;I

1850 371

90 11

225

023604

90 4

-:;;;

136

89

AC

21615

11

1724814

11

l

225

023205

12

135

90

rh

-a

22283

9

1723364

9

668

12

225

023922

10

134

91

Pa

-a

24310

70

1720560

70

2020

70

225

026090

80

50

N

A.H. Wupstra, G. Audi / Atomic mass evaluation (I)

Z

AELO

Mass excess

Binding energy

WV) 139

87

226 Fr

138

88

Ra

23662.6

137

89

AC

24298

27200

Beta-decay energy

(keW 140

Atomic mass

WV)

8-

3540

4

8-

- 634.9

4

8;+ +

1728860

140

2.8

1731621

3

1730204

(rrU) 140

226

029200

2.9

226

025403

3

1117 *

5

226

026084

4

226

024885

6

1160 2834

40 13

226

027928

13

226

029170

40

136

90

l-b

23180

6

1730538

6

135

91

Pa

-n

26015

12

1726922

12

134

92

U

--u

27170

30

1724980

30

140

87

227 Fr

29590

90

1734550

90

139

88

Ra

27172.6

2.8

1736182

4

;’

138

89

AC

25849.0

3.0

1736724

4

8-

137

90

Th

25805

4

1735985

4

136

91

Pa

-a

26825

10

1734183

10

8+

1020

135

92

u

-a

28870#

1OOc

1731360#

lOO#

B+

2040#

2001

42CQ#

200s

141

87

228 Fr

+

331404

200#

17390706

140

88

Ra

+a

28936

4

1742490

5

139

89

AC

-

28890

4

1741754

5

138

90

Th

26748

6

1743114

6

137

91

Pa

28852

7

1740227

R

136

92

u

29208

21

1739089

21

-a

;I

227

031770

100

2420 1323.6

90 2.5

227

029171

3

44.1 I

2.0

227

027750

3

227

027703

4

10

227

028797

lco#

227

030990#

1lOP

22oe

;+ +

11

228

035570#

1.0

228

031064

4

2142 I

6‘

228

031015

4

228

028715

6

2104 356

21 6

228

030973

8

228

031356

22

45.7

P-

150

141

88

229 Ra

+

32480

160

1747020

160

8-

1760

40

229

034870

170

140

89

AC

+

30720

150

1748000

150

P-

1140 .

150

229

032980

160

229

031755

4

229

032073

13

139

90

Th

29580

3

1748353

4

138

91

Pa

-a

29876

12

1747275

12

137

91

u

-a

31181

10

1745187

10

;++

1305 296

14 12

229

033474

10

136

93

Np

--o(

33740

90

1741840

90

8+

2560

90

229

036230

90

7Oa

200

230

0369908

300x

200x

230

0362404

220#

2.4

230

033127.9

230

034527

4

230

033921

6

230

037810

60

110

142

88

230 Ra

+

344609

280s

1753110#

2809

141

89

AC

+

33760#

200#

1753030x

2co#

140

90

rh

30858.6

2.4

1755146

3

p-

-1303.3

139

91

Pa

32162

3

1753060

4

8-

6

138

92

u

-a

31598

6

1752842

7

564 *

137

93

Np

-a

35220

50

1748440

50

P+

3620

50

142

89

231 AC

+

35910

100

1758950

2100

141

w

l-h

140

91

Pa

139

92

u

33812.1 33422.2 -a

33780

2.4 2.8 50

100

P-

3

8-

1759871

4

1758730 1756110

231

038550 036298.5

231

035880

3

50

231

036270

50

50

;++

1840 360

70 50

231

038240

LJ+

27804

150#

231

041220X

150#

38OOC

220#

93

Np

-a

35620

94

Pu

--(II

383908

1409

1752550#

140#

143

89

232 AC

+

39240#

200#

1763690#

200#

142

90

Th

354444

Pa

35923

91

+

140

92

U

-a

34586

139

93

Np

-a

372808

138

94

Pu

-a

38349

11 6 loo* 23

loo

2.5

231

137

2.1

2900#

1760264

138

141

50

;I

389.9 *

2.5

50

2c@#

232

042130#

1766703

3

B-

- 479

11

232

038050.8

1765441

12

P-

1337 *

10

232

038565

232

037130

2690#

lOO#

232

0400209

llO#

;+

1070##

lOO#

232

041169

25

1765996 17625204 1760669

8-

1.7

6

+

loo# 23

2.3 12 6

143

90

233 Th

38729.4

2.1

1771489

3

P-

1243.5

1.4

233

041577.4

2.3

142

91

Pa

37485.9

2.4

1771950

3

B-

572.1

2.4

233

040242.5

2.5

141

92

U

36914

3

1771740

4

233

039628

140

93

Np

-a

38cKJO#

-a

40020

139

94

RI

138

95

Am -a

loo#

17698700

50

1767070

43170#

220#

176314Ot

lca# 50 220#

144

90

234 Th

+a

406Q7

6

1777683

6

143

91

Pa

IT

40337

8

1777170

8

142

92

U

38142.0

2.2

1778583

3

141 140

93 94

NP Pu

--(I

39950

9

1775993

10

40333

139

95

Am

--u

44340#

8 210#

1774828 177cm409

l

+ ;:

;I

100x

233

040800#

2020#

llO#

233

042970

3150x

2201

233

04634OL

234

043593

6

234

043303

8

234

040946.8

234

042888

234

043299

234

0476001

2195 270

8 5

l

s++

1808 383

12 9

8+

4010#

210#

8 2109

3

lOW#

llO# 50 240#

2.4 10 8 220#

A.H.

N

Z

A

EL

0

90

235 Th

144

91

Pa

+n2p

44250

+

42320

Beta-decay

Binding energy

Mass excess (kW

145

51

Wapstra, G. Audi / Atomic mass evaluation (I)

50 loo

energy

Atomic

(kev)

(kev) 1782110

50

1783260

100

mass

(IrU)

8-

1940

110

235

047510

50

p-

1400 *

loo

235

045430

110

235

043924.2

;+ +

1120 123 2

235

044056.5

235

045260

2.4

143

92

u

40915.5

2.2

1783881

3

142 141

93 94

NP Pu

41038.7

2.4

1782975

4

-a

42160

60

1781070

60

140

95

Am

--01

4464O#

210#

1777810s

210#

24809

220s

235

O47930#

2204

139

%

Cm

--(I

480209

2501

177365OC

25oc

;+

33804

320#

235

05155Oe

26o#

+

45540

200

1788110

200

8-

3100

200

236

048890

210

1790426

3

236

045562.7

50

1788720

50

236

046550

6

1788425

145

91

144

92

236 Pa U

143

93

Np

IT

43370

42441.7

2.1

+

;’

6010

490 920 f

50

2.6 60

2.3 50

142

94

Pu

--L1

42879

236

046032

141

95

Am

--(1

46OOOX

14o#

1784520#

140#

B+

3120P

14OP

236

O49380#

150s

140

96

Cm

--u

47870#

2oo#:

1781860t

2coY

8+

1870#

250#

236

05139O#S

220#

+

47640

50

237

051140

;:

2250 5189

237

048724.8

2.3

237

048167.8

2.3

237

048401

146

91

145

92

6

1794080

50

U

45387.2

2.2

1795552

3

44868.3

2.1

1795289

3

45086

6

1794289

6

237 Pa

144 143

93 94

NP PU

142

95

Am

--01

466309

14ot

1791970f

14o#

141

96

Cm

--01

49150#

210#

1788660f

210#

140

97

Bk

--01

5319O#

3oo#

1783830#

300#

147

91

238 Pa

51270

300

1798530

300

146

92

u

47306.0

2.1

1801705

3

145 144

93 94

NP PU

47451.6

2.1

1800777

3

46160.2

2.2

1801286

3

143

95

Am

1798250

50

142

96

141

97

+

-a

48420

Cm

-a

49390

Bk

-a

54170#

50 30

1796490

30

29ox

179o930*

29o#

50570.9

2.1

1806511

3

49306.9

3.0

1806993

4

48584.9

2.2

1806932

3

--01

49385

5

1805350

5

Cm

-

5109Oc

lcO#

180287OC

1ooc

97

Bk

--(I

54270 ##

29o#

17989ooU

29o#

98

Cf

--(I

5824O#

3204

1794150t

320#

+(I

52711

5

1812443

6

Np

+-

52210

60

1812160

60

147

92

146 145

93 94

239 U NP Pu

144

95

Am

143

96

142 141

240U

-n

148

92

147

93

146

94

Pu

145

95

Am

in

51491

50122.4

1813466

3

12

1811315

12

6

1810323

2.1

144

96

Cm

--OL

51701

143

97

Bk

-

55600#

200x

180564O#

2oo#

142

98

Cf

--LI

58020#

2oo#

1a0244or

200#

54260

loo

1818180

loo

+

6

50 .7

l

8’

+

218

6

50

6

1540#

140s

237

050050f

150f

;+

252Of

250#

237

052760t

220#

Bf

4050#

360#

237

057110#

320#

8-

3960

300

238

055040

320

8-

- 145.6

1.4

238

050784 7

2.3

8-

1291.4

1.1

238

0509410

2.3

238

049554.6

238

051980

238

053020

30

238

058150#

310#

239

054289.7

2.3

239

052933

3

239

052157.6

2.4

4

239

053016

17oo#

loo#

239

05484O#

110x

8’ 8+

3180f

3oo#

239

058260#

310#

39809

4300

239

O62530#

34oc

240

056587

5

;’

2090 5oo *

60 Ijo

240

056050

60

240

053808.2

240

055278

l

;+ +

2260 970

60 50

8+

47802

29o#

;’

1264.0 722.0 *

:+ +

800

2.0 2.5

2.4 50

5

2.3 13

;+ +

1369 209

13 12

240

055503

8+ 8’

3900s

200x

240

05%9O#

220x

2420#

2801

240

0622804

220#

241

058250

110

;’

1310 20.82

loo .20

241

056845.9

241

056823.5

2.3

241

057645

6

148

93

241 Np

147

94

PU

52952.0

2.1

1818708

3

146

95

Am

52931.2

2.1

1817946

3

145

96

Cm

--01

53696

6

1816399

6

144

97

Bk

-

561OO#

2ooP

1813220#

2oo#

143

98

Cf

--I

59170t

2W#

1809360#

29of

142

99

Es

--L1

63820#

3604

1803930#

360#

149

93

242 Np

+

57410

200

1823100

200

148

94

Pu

54713.9

2.1

1825017

3

;I

- 2700 749.3

200 .Y

147

95

Am

55463.2

2.2

1823486

3

8-

1.2

146

96

Cm

--(I

54800.7

2.2

1823366

3

662.5 *

145

97

Bk

-

57700#

181%80#

2oo#

144

98

Cf

--(I

59330

143

99

Es

-.a

6469Q#

2oo#

6

;:

I

+

:+

30

1817270

30

B+ s:

350#

1811130#

350i

B’

6

2.3

24009 765

200# 6

241

O6O22O#t

2209

30809

350#

241

O63520#

310#

4650X

460#

241

O68510#

380X

242

061640.

210

242

058737.3

2.3

242

059541.7

2.4

242

058830.5

29oo#

zoo*

242

O6194O#

163OP 5360#

2009

242

063690

350#

242

O69450#

2.4 220# 30 380#

52

A.H. Wapstra, G. Audi / Atomic mass evaluation (I) z

N

A

EL

0

Binding energy

(kev)

fke’J)

Beta-decay

energy

Atomic

(keV)

8-

93

243 Np

59921

11

1828664

11

149

94

PU

57751

3

1830051

4

148

95

Am

57171

3

1829850

4

147

96

Cm

-a

57177.3

2.4

1829061

4

146

97

Bk

-a

58682

6

1826774

7

145

98

Cf

-a

60910#

140#

1823760#

140#

p”’+ +

2230#

144

99

Es

-a

64120 e

29Oa

1819180#

290#

;+

3810#

Fm

-a

69360#

320#

1813750#

320#

8’

4640f

430a

59801

5

1836073

6

59876.3

2.3

1835215

4

;I

1427.3 - 75 *

loo

2170

11

243

064328

12

581 *

4

243

061998

4

243

061375

3

243

061381.9

2.6

243

062997

7

140s

243

065390s

lSO#

320s

243

0694706;

310*

243

074460#

340#

8-

15056.8

6 2.4

150

94

149

95

Am

+

148

96

Cm

-a

58449.0

147

97

Bk

-a

60690

Cf

-a

61459

;+ +

2250 760

Es

-

65960#

200#

1826ooO#

200#

P’

45004

Fm

-a

69040#

280#

1822140#

280#

P+

3080#

350s

;’

1281 894.7 *

146

‘98

145 144

99 loo

244 Pu

2.1

1835860

3

50

1832830

50

6

1831286

7

151

94

245 Pu

-n

63174

14

1840771

15

150

95

Am

+a

61893

3

1841270

4

149

96

Cm

60998.0

2.2

1841383

3

148

97

Bk

--u

61812

5

1839787

5

147

98

Cf

--oI

63317

6

1837440

7

146

99

Es

-a

663809

210#

18336500

210#

;+ + +

Fm

--(I

701Oot

350#

18291500

3504

--DD

65365

19

1846652

19

-

64991

22

1846244

22

145

loo

152

94

246 Pu

151

95

Am

62613.3

2.8

-

64010X

lOO#

Cf

-a

64087.3

2.5

Es

-a

67930#

220%

1840180#

220#

100

Fm

--OI

70130

40

1837190

40

152

95

247 Am

+

67230#

lca#

1852080#

lOQ#

151

96

Cm

150

97

Bk

149

98

148

99

147 146

loo 101

153 152 151

97

Bk

150

98

149

99

148 147

150

96

Cm

149

97

Bk

148

98

147

99

146

1847839 18456609 1844800

5

1852995

5

-a

65485

6

1852256

7

Cf

--d

66150#

Es

-a

68550

Fm

-a

7154OtL

Md

-a

76040#

95

248 Am

+

70590#

96

Cm

lca#

1850810#

50

1847630

50

170#

18438604

170#

350*

1838570#

3504

2cot

1856790#

200#

064199

5

244

064279.3

2.5

244

062747.1

244

065160

50

244

065979

2OOv

244

070810#

22oc

244

074120#

310#

245

067X20

15

245

066444

3

245

0654X3.5

2.4

245

066357

5

245

068037

7

14 2.2

7 4

2.3 60 6

210a

245

071260s

220 0

;+

3720#

4104

245

075250#

3x0*

;’

237X 374

22 10

246

070171

21

246

069770

23

246

067218

100*

246

06872OY

* +

loO#

65528

1565 814

244 1.0 5

3OGu#

4 4

mass

(W

150

143

+p

Mass excess

1400#

3 llO#

70x

100*

246

068800.0

3x40*

22ov

246

072920#

:+

2200#

230s

246

075290

40

;I

1700# 43

1CQa 7

247

0721706

llO#

247

070347

247

070300

:+

+

l

+

2.7 240 ##

5 6

670#

loo#

247

071020#

z+ +

2400 S

11Oa

247

073590

50

299Q#

180a

247

076800#

190t

z+

4510#

390s

247

0816306

3ROtt

248

075780#

22oc

-711 3200#

2001 21

248

072343

5

860 *

20

248

073106

22

248

072183

3030#

11Oa

248

075440#

loo#

67388

5

1859207

6

;I

+

68099

21

1857714

21

8-

Cf

--cI

67239

6

1857792

Es

-a

70270 tt

loo 101

Fm

-a

Md

-a

153

96

249 Cm

--n

70746

5

1863921

6

152

97

Bk

+

69843.6

3.0

1864040

4

151

98

Cf

-a

69717.9

2.3

1863384

3

150

99

Es

-a

71110

50

1861210

50

8’

li

149.100

Fm

-a

73500#

lcn#

1858040#

loo??

B+

148

101

Md

-a

77260t

290#

18534901

290*

B+

250 Cm

1869753

11 ;’

6

+

llO#

6

llO#

1853980#

71885

21

1851580

21

:+

1620#

11oa

248

077171

23

77080#

280f

1845600#

280#

8’

52cQt

280 *

248

0827506

300#

249

075948

5

249

074980

3

249

074844.7

50

249

076340

2390#

llO#

249

07891OC

llO#

3760#

3OOc

249

082950#

310#

250

078352

12

1781 37

l37

250

078312

8

250

076400

100s

250

078660#

lca#

250

079509

3co#

250

084380#

llO#

154

96

-nn

72985

11

153

97

Bk

+a

72948

7

18690138

8

152

98

Cf

-a

71167.0

2.9

187Ow6

4

151

99

Es

-

73270#

150

100

Pm

--P

74063

20

1865545

21

149

101

Md

-a

78600#

3oot

1860230#

300#

loot

186712Oa

lca#

;’

902 125.7

5 1.9

l

8’

2100*

P+ /3+

4540#

8CKJP

1201

2.5 50

3 llO# 22 320#

A.H.

N

Z

A

EL

0

Wapstra, G. Audi / Atomic mass evaluation (I)

Mass excess

Binding energy

(keV)

(keW

Beta-decay

53

Atomic

energy

(kW

mass

(a@

155

96

251 Cm

+

76650#

200#

1874160#

2OOc

/.-

1420

20

251

OX2290#

2209

154

97

Bk

+

75230X

200#

1874800#

200#

8-

lloo#

200#

251

080760#

22ot

153

9x

Cf

-a

7412X

5

1875116

5

152

99

Es

-a

74507

7

1x73955

7

8’

379

151

100

Fm

-a

760004

loo#

lX716XO#

lOo#

8‘

149Oc

150

101

Md

-a

79020#

210#

1867RXO#

210#

149

102

No

--LI

X27X0X

lXO#

lR63340#

1X0X

200#

18795709

200*

155

97

252 Bk

+

7x530*

154

98

Cf

-a

76030

5

1881286

6

153

99

Et.5 --01

77263

21

1X79271

21

;’

251

079510

251

079986

lOO#

251

OR1590#

llO#

3020f

230f

251

014830#

2204

3760#

270#

251

ORXR70#

190#

2500#

200f

252

0384300#

220#

21

252

OR1621

252

082944

-1233

8

B-

445

29

5 7

5 23

21

1878934

21

252

082466

230#

18744205

230#

8’

3730#

230#

252

OX6470#

X2X56

26

1871330

26

8+

23107

230#

252

088949

--oI

19296

7

1886091

8

B-

2RX

253

OR5127

8

-a

79007.7

3.0

1885597

4

253

OR4XlX

3

5

1X84484

5

4

253

OX5173

152

100

Fm

-a

76817

151

101

Md

-a

80540 #

150

102

No

-a

155

9x

253 Cf

154

99

Es

153

loo

Fm

--OI

79339

152

101

Md

-a

81240#

210#

1881800#

210#

151

102

No

-a

X43309

220#

1877930#

220#

150

103

Lr

-a

XX640#

290#

lX7284Of

290#

156

98

254 Cf

-la

x1337

12

1X92121

13

155

99

Es

-a

81990

8

1X906X6

8

Fm

-a

80897

6

1x90997

6

7

23 250# 28

8’

331

P’

1900#

210t

253

OX7210#

220#

3090#

3OO.h

253

090530#

240X

4310#

3704

253

095150#

3104

- 653

14

254

OX7318

13

1093 *

5

254

ORR019

R

254

OX6846

6

+

:+

5

154

loo

153

101

Md

--u

8349OC

1404

1887620#

140#

26OOf

1409

254

0896301t

152

102

No

-a

X4723

26

1885606

26

:+

1230#

1409

254

090953

27

151

103

Lr

--L1

x9730t

3609

lR79820#

360#

8’

5Ooo#

360#

254

0963201

3904

99

255 Es

200#

18966601

2co#

P-

300#

200*

255

090270#

220#

255

08994X

255

0910X1

156

--OI

84090#

155

loo

Fm

--u

83787

5

1896178

6

154

101

Md

-a

X4X42

8

1894340

9

153

102

No

-a

X6870*

loO#

18915302

loott

152

103

Lr

-a

9co50t

290#

1887570#

290#

151

104

Rf

-n

94310#

270f

lX82530f

270f

256 Es

220#

1901660#

22oc

+

l

8+ +

1055

255

09326O#

110s

;+

31x09

300#

255

0966708

310#

P’

4260#

390#

255

1012408

29Qt

8-

1670# *

220#

256 256

093560# 091767

240x x

30

256

093960

30

2406 40

256

094252

2x

256

098490#

2501

256

101210#

2209

99

-a

X716Of

100

Fm

-a

X5482

7

1902555

8

155

101

Md

-a

87522

29

1899732

29

B+

2041

154

102

No

-a

X7796

26

1898676

26

;+ +

3950# 270

153

103

Lr

--LI

91740#

240b

1893950#

240#

152

104

Rf

--a

9428Ot

200s

lX90630#

200#

100

Fm

-a

88585

101

257

Md

--OI

89030#

155

102

No

-a

90220

154

103

Lr

-a

92670##

153

104

Rf

--u

9589Ot

152

105

Ha

--u

100390*

157

101

258 Md

--OL

156

102

No

--Q

155

103

Lr

-a

154

104

Rf

153

105

Ha

157

102

259 No

156

103

Lr

155

104

154

105

7

1907523

/3+

25405

257

095099

P’

450#

310#

200#

257

095580#

f

8 2OOf

9

lOOf

157

157

6

2030#

156

156

9

150#

8

200s

1906290#

30

1904330

30

1180#

2M)o

257

096850

30

210#

1901090#

210#

:+

2450#

210#

257

099480#

230#

2301

1897090#

230X

310#

257

102950#

250#

1891810#

300#

8’ L7+

32208

300#

4490#

3709

257

107770#

320#

91820s

200s

1911580#

2OOL

f.-

390L

280#

258

098570#

220%

91420#

200#

191119Ot

200#

258

098150#

220#

94750#

140#

19070903

140#

250#

258.

101710#

150#

%350#

200#

8+

3330#

-a

1904700#

2oOP

250X

258

103430X

220#

101550#

410#

189872O#t

410#

8’ 8+

16co#

-a

5200#

460#

25X

109020#

440#

--01

94018

11

191666X

--LI

95850

50

1914050

50

Rf

-a

983006

llO#

19108208

llO#

Ha

--u

10207OY

350#

19062701f

350#

+

12

2208

259

100931

12

1830

50

259

102900

50

;+

2450#

120*

259

1055308

120#

8’

37708

370#:

259

109580#

38Or

+

A.H. Wapstra, G. Audi / Atomic mass evaluation (I)

54

N

z

A

EL

0

Mass excess

Binding energy

@V)

energy

Atomic

WV)

157

103

260 Lr

-a

98100

60

1919870

60

156

104

RI

-I%

99020#

2cat

1918170#

2OOt

155

105

Ha

--LI

1034408

240 fL

1912970#

240*

154

106

Nh

-a

106910#

450#

1908720#

45OP

157

104

-a

10124Oc

2cQc

1924020#

2OOc

156

105

Ha

-a

10416Oc

2201

19203204

220*

155

106

Nh

-a

108220#

460#

1915480#

460#

261 Rf

Beta-decay

(ken

157

105

262 Ha

-a

1059708

150#

192659iI#

150x

156

106

Nh

-a

108470#

36OY

19233006

360#

155

107

Ns

--(I

114510t

420#

1916480#

42OC

157

106

263 Nh

-a

110120#

120f

1929720#

120a

156

107

Ns

-a

114800#

610#

1924260#

610#

mass

CPU)

*

+ ;+ 8+

260

105320

920#

210#

260

1063OOP

44208

31oc

260

111040#

260f

34704

510#

260

114770#

480f

+ :+

261

108690#

220 x

29209

300#

261

111820#

230#

4060#

510#

261

116180#

5001

+ :+

262

1137606

160#

2510#

3W#

262

116450#

39Oa

6040#

550#

262

122930#

450x

B+

4680#

8’

4170#

l

l

60 220#

263

1182201

130#

620f

263

123240#

660#

264

124490#

6coa

107oc

264

128970%

980#

l

157

107

264 Ns

-a

11596Of

560#

1931170#

560#

156

108

uo

-a

120130#

920#

19262201

9209

157

108

265 Uo

-a

12124OY

920#

19331808

920X

265

130160#

99Q#

157

109

266 Ue

-a

128210#

420X

19335009

420X

266

1376401

450#

l