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Collisional transition probabilities for alkali metal atoms in thermal plasma from 1000 °K to 8000 °K
ATOMIC
DATA AND NUCLEAR
DATA TABLES
COLLISIONAL FOR
ALKALI
19, 1-2 1 (1977)
TRANSITION
PROBABILITIES
METAL
ATOMS
FROM
1000 “K TO 8000 OK
J. KUNC
IN THERMAL
PLASMAS
and M. ZGORZELSKI
Warsaw Technical University Warsaw, Poland
Results are presented of the transition probabilities induced by electron collisions with lithium, sodium, potassium, and cesium atoms. The probabilities are described with the aid of the classical binary-encounter theory. The electrons are assumed to be Maxwellian. The range of temperatures covered is from 1000 “K to 8000 “K.
CONTENTS
INTRODUCTION Scope of the Paper EXPLANATION
OF TABLES
TABLE I. Collisional Transition Probabilities from Gryzinski BinaryEncounter Formulas. Alkali Metal Atoms, T, = 1000 OK-8000 “K TABLE II. Collisional Binary-Encounter 8000 “K
Transition Formulas.
Copyright 0 1977 by Academic Press, Inc. All rights of reproduction in any form reserved.
Probabilities from Modified Gryzinski Cesium, T, = 2000 “K, 5000 “K, and
1
AIomc
Data
od
Nuclear
Doto
Tables,
Vol.
19,
No.
1, Jonuory
,977
J. KUNC and M. ZGORZELSKI
Transition Probabilities in Plasmas
atomic energy levels. The levels are described by the principal and total orbital angular momentum quantum numbers. The energy of such a level is calculated as a weighted average over all substates of energies Ei, according to the formula:
INTRODUCTION Scope of the Paper
The data presented in the present paper are the result of a continuation of the previous research work by the same auth0rs.l While the earlier publication described collisional transition probabilities in electronatom collisions for atomic hydrogen, the present paper extends the area to the four alkali metals: lithium, sodium, potassium, and cesium. As before, the classical Gryzi6ski2 binary-encounter theory of electron-atom collisions was used as the method of calculation of the basic table (TABLE I). Similarly, as in the previous paper, exemplary calculations for comparison purposes were made, for cesium only and for selected temperatures, according to the modified binary-encounter formula3 (TABLE II). All details of the calculations, as described in the reference,l remain virtually unchanged. The tables give the values of collisional transition probabilities between
+ lIEi
x(24 El = i C(2-4
+ 1)
References
1. J. Kunc and M. Zgorzelski, ATOMIC DATA AND NuCLEARDATA TABLES 15, 543 (1975) 2. M. Gryziriski,
Phys. Rev. A 138, 322 (1965)
3. M. Gryziriski and M. Zgorzelski, Proc. of the VIII International Conference on the Physics of Electronic and Atomic Collisions, p. 396, Beograd (1973)
EXPLANATION
OF TABLES
The transition probabilities K,,, between discrete levels and Kc, between discrete levels and continuum are tabulated. K,,, is given for’the first 18 levels of each atom K n,m
Number of transitions per set per cm3 from level n to level m, per unit density of electrons n,, and per unit density of atoms in level n,, thus K?l,mnnne gives the number of transitions per set per cm3
To C
To continuum
From C
From continuum
K c,n
Number of recombinations per set per cm3 per 8: and unit density of ions q, thus Kc,,nin,2 gives the number of transitions per set per cm3
TE
Temperature tion
of a Maxwellian
free-electron distribution
func-
Examples For lithium at T, = 1000 “K we read in TABLE I the excitation probability from the ground state (2s) to 2P is 7.246 IO-** cm3/sec The inverse deexcitation process (from 2P to 2s) occurs in lithium at 1000 “K at the rate 1.003 10e8 cm3/sec Direct ionization from 2s to continuum occurs in lithium at 1000 “K at the rate 2.354 1O-36 cm3/sec. The three-body recombination into the ground state occurs at 4.508 1O-2g cm6/sec
2
Atomic
Dda
and
Nuclear
Data
l&lea,
Vol.
19,
No.
1, Jmwary
1977
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition Probabilities from Gryzihski Binary-Encounter Alkali Metal Atoms, T = 1000 “K-8000 “K-
COLLISIONAL LEVEL
TO:
LEVEL
TO:
2S
TRANSITION
2P
5S
Transition Probabilities in Plasmas
PROBABILITIES-LITHIUM
3s
5P
3P
50
TE=lOOOK 3D
6s
Formulas
4s
bP
4P
7s
4D
4.616
m-4
2.404 2.015 9.522 2.772 2.409 0.446
r-b r-7 "-7 "-7 "-7 r-0
it:&
$5
7P
0P
1.717
T O C. FROM C.
T O C. FROM C.
2s
2P
3s
3P
3D
4s
4P
4D
7.354,-36 4.500.-29
1.405,-26 1.943,-20
2,556"-10 1.353"-27
9.992"-lb 3.290"-27
1.932"-15 3.679.-27
9.671"-13 1.272"-26
1.224"-11
1.632"-11 2.604"-26
5s
5P
50
65
bP
7s
1.476 1.120"-25
3.640,.-10 6.757,.-26
"-9
COLLISIONAL LEVEL FROM
s
TO:
25
1.730
1,190"-25
"-9
TRANSITION
2P
3s
1.047
2.523"-25
r-0
2.476
3.700"-25
"-0
0.799
7.307"-25
PROBABILITIES-LITHIUM 3P
2.407"-26
"-0
7P
0P
1.560 1.013":;:
6.549 2.516"-24
4s
4P
4D 2.210.-20
3.764 3.323 1.030 1.643 6.313 LEVEL
"-7
TE=POOOK 3D
25
FROM
"-5
TO:
5s
5P
5D
6s
6P
7s
3.603"-21
1.540
3,092 y4"4
y-0 *-$
::331
::5 "-3 1.016
5;
5:Hd 2P
T O C. FROM C.
2.501 4.123,-26
2.271"-17 1.332"-20
5s
See page 2 for Explanation
5.970"-13 9,073.-20
5P m-0
6.001 6.705"-26
4D "-0
6.700
7.109"-26
"-0
f.f.f .
"-4 "-5
P
3P
3D
4s
4P
1.594"-11
2.301"-11
2.174"-27
2.426"-27
7.770"-10 0.165"-27
3.402 1.510"-26
65 w-0
1.240 "-4
3.715
1.765"-22 3.124"-29
7P
1.916"-22 &:$;=I::
"-6
T O C. FROM C.
"-7 "-7 r-7 "-7 r-0
2.070 1.461"-25
6P "-7
3.609 2.140"-25
7s "-7
a.272 4.020"-25
4D "-9
7P "-7
4.029 1.639"-26
"-9
0P 3.219 1.293"-24
"-6
of Tables, 3
Atomic Dab
ond Nuckm
Ddo Tables, Vol. 19, No. 1, January
1977
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition Probabilities from Gryzihski Binary-Encounter Alkali Metal Atoms, T = 1000 “K-8000 “K
COLLISIONAL LEVEL
TO:
2s
TRANSITION
2P
5P SD
4.802"-11 4.232,.-10
2.052
65 bP 7s 7P 8P
1.953".-10 1.667.-10
3%5--:8
LEVEL
TO:
T O C. FROM c.
8.745,.-18 ?.500,.-29
T O C. FROM C.
1.173 2.956,-26
3D
4s
4P
4D
1.150"-15
4.149"-15
3.665.-16
2.609"-17
1.744.-lb
6S
bP
"-9
6.422"-10 2.832"-10 5P
5s
3.883"-17 1.628,s-13 3.423"-10
3P
3:364:-10
7.248"-11 1.398"-10 6.233"-11
2S 2P 3S
Formulas
TE-3000K
PROBABILITIES-LITHIUM
3s
4.361"-11
FROM
Transition Probabilities in Plasmas
3.479"-18 l-440,-14
2s
2P
3s
3P
3.109,-14 1.055"-28
4.233"-11 7.039,-28
4.582"-10 1.665"-27
5P
5s "-7
2.288 4.740.-26
COLLISIONAL
2.471
5.016.-26
"-7
TRANSITION
6.048
l.OOJ,-25
7P
8P
7.000"-18 2.7091-14 4.502"-11
3.175"-18 l-215"-14
8.121 "-9 b.O9bu-27
2.475
1.960.-11
4P 5.995"-10
1.854m-27 bP
6s
5D u-7
7s 3.683"-18 1.439"-14 2.458"-11
r-7
9.414
1.462.-25
7s "-7
1.843 2.676,-25
1.118.-26
"-8
2.814
w-6
5.655 8.234".25
7P r-b
2.518 3.605~25
1.204.-26 8P
TO:
2s
2P
3s
3P
30
4s
4P
4D
LEVEL
TO:
5s
5P
5D
65
6P
7s
7P
8P
2s 2.098,-15 2.122,.-29 5s T O C. FROM C.
2.585 "-7 2.280,.-26
See page 2 for Explanation
PP
3s
1.235"-12 8.873"-29
3.790"-10 5.804"-28
5P
5D
4.573 3.614"-26
u-7
4.885 3.820.-26
3D
3P 2.599
1.357.-27
"-9
65 "-7
3.234
1.509.-27
4s "-9
bP
1.056 "-6 7.537..-26
r-b
TE.4000K
PROBABILITIES-LITHIUM
LEVEL
T O C. FROM C.
"-8
1.551 1.083"-25
4P -8
$:%,:27
8:804.-27
4D a-8
7P
7s "-6
6 963
2.790 1.950"-25
"-6
3.673 2.605"-25
k:%,-;8 8P
m-6
7.529 5.812"-25
m-b
of Tables.
4
Atomic Data and Nuclwr
Data Tables, Vol. 19, No. 1, January
1977
J. KUNC and M. ZGORZELSKI
ABLE I. Collisional
Transition Probabilities in Plasmas
Transition Probabilities from Gryziriski Binary-Encounter Alkali Metal Atoms, T = 1000 “K-8000 “K
CDLLISIDNAL
TRANSITION
PROBABILITIES-LITHIUM
TE=5000K
LEVEL
TO:
2S
2P
3s
3P
3D
LEVEL
TO:
5S
5P
50
6s
6P
2s T O c. C. FROH
5.067"~14 1.861.-29
2P
3s
1.169"-11 7.709,.-29
1.459 4.952"-28
5P
50
5s T O C. FROM C.
4.219 "-7 1.836,.-26
7.017 2.005"-26
COLLISIONAL LEVEL FROM
TO:
2S
25
"-7
7.445 3.045"-26
3P "-9
"-7
1.409 5.924"-26
4s
4s "-9
9.150 1.272"-27
5.858 4.025"-27
6P
7s
4D
4P "-B
4D :::;:,:;:
::;:k,: 7P
BP
"-6 k::;,:;:
:::k;;
PROBABILITIES-LITHIUM
3s
4P
7P
3D "-9
65
TRANSITION
2P
7.580 1.145"-27
Formulas
ft:%:,f;f
t:;:',,:;;
TE=600OK
3P
4s
3D
4P
4D
-
m
6.532
LEVEL
TO:
5S
5P
6S
5D
6P
"-6
7P
;.:g;“-:; 7:095::10 3.596
2s T O C. FROM C.
5.555,-13 1.666,.-29
T O C. FROM C.
5.893 1.523":;;:
2P
3s
5.363"-11 6.040"-29
3.656 4.321"-20
5P
5D
5s
See page 2 for Explanation
;::;:,f;;
;:;t:,.$,
3P "-9
1.574 9.097"-28
4s
30 m-8
6S
1.862 1.098"-27 6P
i:t::.-;b
i?:;:.:;:
m-13
9.820 3.4201-27 u-8 7s ::$;:,-;$
4P
40
26:8%.:,:
2.232 6.523"-27
7P ::$;:.:;$
"-9
m-7
BP 9.972 3.420"-25
"-6
of Tables. 5
Atomic Dota and Nuclear
Data Tables, Vol. 19, No. 1, January 1977
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition Probabilities from Gryzihski Binary-Encounter Alkali Metal Atoms, T = 1000 “K-8000 “K
COLLISIONAL LEVEL
2s
TRANSITION
PROBABILITIES-LITHIUM
3s
3P
SD
5S
5P
50
65
6P
2P
3s
T O C. FROM C.
2.019"-12 1.513"-29
1.610"-10 6.159"-29
7.137 3.030"-20
T O C. FROM C.
7.512
2S
LEVEL
5s
1.291,-26
5P "-7
1.160
1.999.-26
TO:
2s
1.221
2.107”-26
1.030
LEVEL
:F"
e-0 "-0 "-0
ZP 5D
1 44; 41626
::?
$8
'2:3::
5
:c 0P
:*:t: 21032
::: "-7 2s
T O C. FROM C.
9.659"-12 1.309..-29 5s
FR::
$1
9.033 "-7 1.113,.-26
See page 2 for Explanation
r-b
3.004
6S
4.011r-26
1.051 1.501
9.490 g::gg 2.524
"-9 =I; "-9 SD
8: :g;:;: 8; t 0: :rg’ "-9
5.3 7 u-0 2.d04 a "-0
::;:a 4.062 1.476
=:q "-7 "-5
6.245 1.907 0.745 1.634 2.109 5.044
2:20 i 2.636 4.742 6.269
z5 "-6 "-6 "-6 "-7
3
2.39: 1.0 :*54 61401
85
3.749"-10 5.607"-29
1.109 3.436"-20
5P
5D 1.4 1.0
5.652r-26
4.790 9.052u-26
2.020 5.221.-27
m-6
5.907 1.295.-25
7s
40 "-7
3.053 5.597.-27
m-6
1.076 2.764.-25
7P
"-7
0P r-5
TE=BOOOK 3D
4P
4s
0.442"-11 p;gg
"-6'
21907
::4
40
7P
6P
54 r-6 "-5 n-3
w-6
::f 3s
"-6
u-6
"-7
"-5 7 u-5
2P
1.362 1.713"-26
1.432 2.960.-27
PROf3ABILITIES-LITHIUM
6S
7.352
4P "-0
bP
y-0 "-7 "-6 "-7 "-0
5P
5S
4.432"-12 2.192"-10 1.244 IpJ
2.220
3.125 9.633"-20
,*.-a
5.047,-10 1.050"-10 2.209"-10 ?.005,-11 1.571.-10 6.749.-11 TO:
25 ZP 3S ;g
4D
7P
30 "-0
3P
yg:
FROM
"-6
3s 2
5D 6S 6P 7s 7P BP
2.603 0.696"-20
TRANSITION
2P
25
3P "-9
SD
"-6
COLLISIONAL
FROH
4P
4-3
-
TO:
LEVEL
Formulas
TE=7000K
2P
FROtl
TO:
Transition Probabilities in Plasmas
"-6
"-a
4.031 7.740"-20
1.910
"-5
4.790
3D
3P r-0
4.642 0.564.-28
w-0
1.909 2.599.-27
"-7
3.590 4.553"-27
6P
6s
y-5
4P
4D "-7 3:t:2,:;:
7P
0 "-6 P 5"-26
of Tables.
6
Atomic Data ad
Nuclear
Data TcUe,
Vol. 19, No. I, hnuory
1977
Transition Probabilities in Plasmas
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition Probabilities from Gryziriski Binary-Encounter Alkali Metal Atoms, T = 1000 OK-8000 “K
COLLISIONAL
TRANSITION
LEVEL
TO:
3s
3P
4s
LEVEL
TO:
6S
5D
6P
3s T O C. FROM C.
6.138,-35 5.120,.-29
T O C. FROM C.
5.781,-10 ?.535,.-26
3P
4s
8.683"-24 3.201"-28
6S
8.1 1.5
5D
FROM
TO: 35 3P
TRANSITION
3P
1.72;
::I
9.00s
i-t
$#
1.267"-16 2.524,.-10
4F
5P
2.178"-11 2.680.-26
4.509"-11 3.305~26
1.472 2.802"-25
6D "-8
7P "-8
4P
5.146"-18 7.092"-12
3.735"-18 4.500"-12
7.322
--O
2*651
-2
$$$j
:I?
::::p
:I,
,.-a
1:11e
=:$
;:g:
=:;
a.;;;
"-7
$:& f.;
$ m-;
1.532,,-10
1.130
1:; "-9
:';f% 6.9
c;
$h$j
;;I
6P 60 7s 7P 8S 7D 8P
3.617.-10 6.792,,-11 1.797,-10 l-460"-10 7.808,-11 2.456.-11 8.617,.-11
2.619 I.271 .754,-i: " I.012 "-9 5.348"-10 $:f129,-10 672,.-10
Z.3: 5.590 2.896 8 969"-10 3:092
5 "-9 "-9
%472078 1.536 7.804 2 395 8:168
$8 m-8 m-9 "-9 "-9
50
6P
1.511,-20 1.313,.-14
4.013"-21 ;$..:A;
8.441"-21 ;.g*-;:
.%
39:212,.-10 017,-11
2:203"-10
4:231iz10
T O C. FROM C.
9.596,,-22 3.544,-29
T O C. FROM C.
3.418 4.571,-26
6S
-t Z-8 "-8 "-8 "-9 "-8
1.279 4.237 7P
8S
7D
BP
9.288.-22 7.350"-16 1.420"-12
2.?38"-22 2.154"-16 4.121"-13
9.428"-22
See page 2 for Explanation
"-5 ::; 5s
6.831"-16 2.184,.-28
1.122"-12 1.006,-27
2.478"-11 2.357x.-2?
6.523"-11 3.196"-27
1.162 9.116"-27
6P
7s "-7
2.583 1.610"-25
6D "-7
y-3 u-5 "-6
1.980"-21 1.585"-15 3.124"-12
4P
1.001 8.624"-26
5P
6D
3D
"-8
::!ik;:
9.770"-22 7.901.-16 1.584"-12 4.173"-11
4s
7.406 7.167,-26
BP "-7
u-8 m-0
3P
50 "-8
2.314 1.218"-24
s
3.950 9.119 2.904
a.749 ::::g 3s
7D "-7
4F
ii8 :.g;' 2.238 1.126 3 441 1:168
7s 3.033"-21 3. 480"-15 071,.-12 1:362"-10
1.286 8.599"-25
3.957"-20
[if
5D
8s "-8
5s
I$%!
"-9
5.057 5.152"-25
TE=2000K
30
5;
6s
3.527 4.281"-25
PROBABILITIES-SODIUM
21676 5.347
TO:
BP
40
6.89;
3s 3P
7D
1.885"-11 2.574.-26
. 3.415",-9 3*139 7.446
LEVEL
8S
5s
::8
"-9
5P
1.942"-12 1.426"-26
:;f
t..;
4F
4P
4s
1.493"-13
40
l-242.-14 4.877"-27
7s "-9
5s
3D
9.489,-11 4.148,-10 9.404,.-10 4'171'"-10
2
FROM
3s
3.268 l-459,-25
4P
2.205"-15 3.575"-27
6P
2.029 "-9 1.203,.-25
COLLISIONAL LEVEL
9"-18 t 3"-27
TE=lOOOK
PROBABILITIES-SODIUM 3D
Formulas
4.540 2.412"-25
"-9
7P "-7
3.558
5.744 m-7 2.877,.-25
4.306 1.618"-26
"-9
4.776 1.683"-26
"-6
1.580 6.504"-25
8S 1.065 4.670"-25
"-9 "-8
::;g
::$
r-3 4F
4D
9.893 1.093
5P "-9
7.350 2.062"-26
"-6
1.810 7.316"-25
7D
"-9
BP "-6
of Tables.
7
Atomic Data and Nuclear Data Tables, Vol. 19, No. I, January
1977
.i. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition Probabilities from Gryziriski Binary-Encounter Alkali Metal Atoms, T = 1000 “K-8000 “K
COLLISIONAL LEVEL
TO:
LEVEL
TRANSITION
3P
4s
PROBABILITIES-SODIUM
6S
5D
1.015"-16
3.009"-17
3s
3P
4s
3D
4P
T O C. FROM C.
2.017,-l? 2.034"-29
3.405"-13 1.722"-20
6.672"-11 7.700"-28
6.327"-10 1.001"-27
1.209 2.420"-27
7s
6D
FR%
1 450 3:::":;:
6P
6P f:
"-7 "-26
kt':;
COLLISIONAL
3.306 6.040"-26
TRANSITION
LEVEL
TO:
3S
3P
4s
LEVEL
TO:
6S
5D
6P
3s T O c. FROM C.
;.m~"-l' .
"-29
6S T O C. FROM C.
3.113 "-7 2.508,.-26
See page 2 for Explanation
m-7
:%&a:;,7
4s
3D
5.466,-10 6.409"-28
3.379 1.464"-27
5D
6P
7s
5.221 3.839"-26
"-7
6.401 4.573,-
::i
*-7 26
1.220 0.230"-26
4F
5P
1.705".16
3.?14"-16
7P
0S
7D
0P
1.099 6.701"-27
4D "-8
B 8.-.;5"
3.204 1.234"-26
5P "-0
4.453 1.504"-26
"-0
::%.%
TE-4000K
4P
5s
40
4F
5P
7P
8S
70
BP
5s
4D
4F
5P
"-9 f:%,:;?
k:%-;8
60 "-6
4F
3.002 "-0 1.100,.-26
7P
4P
30
3P
4D 3.064.-l?
5s "-9
PROBABILITIES-SODIUM
0.137"-12 1.441"-20
5s 9.035"-16
60
7s
Formulas
TE=3000K 4P
3D
3S
FROM
TO:
3S
Transition Probabilities in Plasmas
1.022 l-204,-25
8::%"-27
7P "-6
2.152 1.421"-25
v-0
0 645 v-0 916911-27
0S "-6
3.345 2.241"-25
7D "-6
4.454 3.050"-25
:::%-;: BP
"-6
4.921 3.405"-25
"-6
of TabIes.
8
Atomic Dota and Nuclsar
Data Tables, Vol. 19, No. 1, January
1977
Transition Probabilities in Plasmas
J. KUNC and M. ZGORZELSKI
TABLE
LEVEL
TO:
‘lp
5P $8 6P 7s % 8s 7D 8P LEVEL FROM
1.286 "-9 :::;:::r:g 4.352,.-10 2.022..-10 71:636,,-10 259,.-11
3D
::::i"-"
u-8
1.26i ;.gg:
w-6 u-4
7:984 3.546 ;.;;3
::9 "-8 u-g
s:3sa
z9
ES-SODIUM
TE=5000K
4P
5s
40
4F
6P
6S
7P
8s
7D
ap
1.644"-14
3.745"-14
2.019"-14
6.379"-15
2.389"-14
:: %“-12 "-9 "-7
5.983
ap
5.145
"-5
1.181
m-9
:::gg
c:$
$:g$: 1.370
=r: "-6
5.733
"-4
"-9
m-5
.-7 3P
3s 1.242,,-13 2.105"-29
4.977 "-7 7.014,.-26
1.994 5.459"-28
5D
6P
7.902 3.057,.-26
"-7
COLLISIONAL 3s
4P
30
5.673,-11 1.246"-28
6s
TO:
7s 4.515"-14
3.837"-14 2.263"-11
1.188,-13
4.039
9.486 3.628"-26
u-9
"-9
1.569 1.649"-27
7s "-7
TRANSITION
3P
9.504 1.234"-27
4s
1.705 6.455"-26
5s u-8
7.296 4.453"-27
6D "-6
2.438 9.359"-26
2.836 l.lOO"-25
y-7
TO:
6s
5D
"-6
4.240 1.717"-25
4P
5s
"-6
T O C. FROM c.
6.855 1.667,.-26
21~101"-:i 119
.
65
"
::5::
"-6
1.239 2.972"-26
See page 2 for Explanation
1.048 2.511,-26
1.926 1.065"-27
"-6
2.130 5.233"-26
6P
50 "-7
"-9 "-28
.-a
3.012
"-6
2.967 7.537"-26
1.418"-27
BP "-6
6.038 2.505"-25
4F
5P
1.995~12
8s
7D 4.220"-14
"-6
1.197 3.775"-27
"-6
3.414
"-7
2.331 6.423"-27
"-6
4.966
7P
B.R34,-26
::%:::: 1.088
4F "-7
2.435 6.659"-27
"-6
6.343
8s
1.36am-25
ap
l.Oll.-11 2.942e10
4D
.-a
6D
7s
%d:.:;:
7.545013
1.326"-13 3.196"-11
4P
3D -
5.510 2.322"-25
4D
7P
6P
3P 1.058,.-12 1.883.-29
5P r-7
70
as
9.412~10
T O C. FROM C.
1.599 ?.925"-27
TE=6000K
PROBABILITIES-SODIUK 3D
1.524 ?.639"-27
7P "-6
4F
4rl u-8
1.618x.-13
LEVEL
5P
a.450,.-ii
fl
LEVEL
PROBABILITI
45
Formulas
2.566,.-11 9.456,-11
3.861
T O C. FROM c.
TRANSITION 3s
8.006
T O C. FROM C.
Transition Probabilities from Gryzifiski Binary-Encounter Alkali Metal Atoms, T = 1000 OK-8000 “K
4.7 a a,-10 1.0 3,.-10
TO:
35
I. Collisional
5P r-7
3.040 8.030"-27
"-6
6.910
70
1.839,-25
m-9
"-7
BP
2.043.-25
"-6
of Tables. 9
Atomic Dota and Nuclear
Da,., Tobler, Vol. I9, No. 1, Jonuory
1977
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition Probabilities in Plasmas
Transition Probabilities from Gryziliski Binary-Encounter Alkali Metal Atoms, T = 1000 “K-8000 “K
COLLISIONAL
TRANSITION
PROBABILITIES-SODIUM
Formulas
TE=?OOOK
LEVEL
TO:
35
3P
4s
3D
4P
5s
4D
4F
5P
LEVEL
TO:
6s
50
6P
7s
6D
7P
0s
70
BP
3s
3P
4s
T O C. FROM C.
4.900.-12 1.709"-29
5.510"-10 9.074"-29
9.150 4.209"-20
T O C. FROM C.
0.649 1.410"-26
6s
1.285 2.111"-26
"-6
COLLISIONAL LEVEL
TO:
1.504 2.492"-26
"-6
2.499 4.350"-
"-0
4.046
"-6 26
3.4 6.2
4s
5s "-0
1.710
4 "-6 s Ow-26
3.096
1.240"-27
7s
TRANSITION
3P
35
3.223 9.343"-20
6P
5D "-7
4P
3D "-9
3.261"-27
7.204"-26
:.d2P
5D 6P 75 6D 7P 0s 7D BP
1:74i$iO 4.646"-10 2. 19,.-10 7. f Ol"-11 1.710"-10 0.747"-11 2.632,.-11
LEVEL FROM
*;g
9.017"-11
TO:
t.H:O
"I8
:;J$;
fr;
1.565
"-9
5.467,.-10
4P
6.051"-10 5D
6P
7s
"-6
T O C. FROM C.
1.612,.-11 1.567,-29 6s
T O C. FROM C.
"-6 1.032 1.213,,-26
See page 2 for Explanation
3P 1.143 0.956"-29
2.927
1.496 ::gq
"-7 ::;
4::%!
::8
:::%f
9
7P
"-9
1.495 3.771"-20
"-0
6P "-6
1.14 1.44
0s
1.740 2.120"-26
4.776 0.304"-20
4P m-0
6,969 1.099"-27
7s "-6
"-6 "-5 "-3
i
2.760
3D
3%
3.790 5.254"-26
"-4 y-5 "-5
5s u-0
7,592 1.663"-25
BP
"-6
2.263 2.050"-27
"-7
"-6
4.299 6.130"-26
9-2
21972 7.960
::b "-7
BP
7D
2.15 3 ;.gfjg
s-9 "-;
61790 1.627
::0 "-7
2.036 2.960 1.359 5.439 1.245
"-6
he-5 "-5 "-4
2.160
"-4
ij: P&:f
t
"-6
2.042
"-4
1.677 2.306
4.024 4.796"-27
6.026 9.3701-26
w
4.103
"-5 "-4 "-3
4F "-7
4.179 4.969"-27
"-6
7.522 1.249"-25
0s "-6
:.gg
4.496"-13
4D
7P
6D "-6 "-26
"-6
"-6
g-0 ::g
6D
m-6 4s
5D 1.499 l.R07"-26
1.629
7.000 1.499"-25
"-7
5P
6.035 4::g
9.269 :.$x7;
3s
1.12 5.55%
4.063 6.0659-27
7D "-6 "-25
;&9:':;
"-7 "-6
5.700"-27
"-7
4D
6.426,.-12 6.364,,-10 1.374 ,-a
3.076 1.166
3.300
0s "-6
5s
1.231 "-9 6.202,.-10 1.053"-10
6s
5.500"-27
5P
4F "-7
TEr0OOOK
PROBABILITIES-SODIUM
1.977
ZE
3.178
7P
6D
3D
4D "-7
5P "-7
5.066 5.962"-27
"-6
0.130 1.304"-25
70
"-7
BP "-6
of Tables 10
Atomic Data and Nuclear
Data Tables, Vol. 19, No. I, January
,977
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition Probabilities from Gryzihski Binary-Encounter Alkali Metal Atoms, T = 1000 OK-8000 “K
COLLISIONAL LEVEL
TO:
TRANSITION
4P
4s
Transition Probabilities in Plasmas
5s
TE=lOOOK
PROBABILITIES-POTASSIUN 5P
30
6s
"-9 LEVEL FROM
TO: 4s
"-7
T O C. FROM C.
T O C. FROM C.
5F
7P
2.204"-28
1.661"-28
75
4.003,.-28
3.136
ES
6D
1.735
4F
r-8
2.750
6P
v-8 8P
6F
5.369
5D
r-8 7D
9s
"-7
4s
4P
5s
3D
5P
65
4F
1.006,-30 7.799"-29
4.139"-22 3.930"-28
1.401"-16 1.924"-27
3.067"-16 2.175"-27
5.450"-14 5.4?8"-27
5.998"-12 1.597"-26
2.178"-11 2.261"-26
7s
5F
7P
6D
8S
6F
8P
::g;;"r;E
Formulas
::g:*:;;
COLLISIONAL
:;Jg$":;;
$:;g"ir;g
;:jg.:;g
TRANSITION
PROBABILITIES-POTASSIUM
g:g:.r;g
093"-10 ::6::"-26
9.211"-10 7.5::".26
"-8 Q "-25
::;g
TEo2OOOK
LEVEL
TO:
45
4P
.5S
3D
5P
6s
4F
6P
SD
LEVEL
TO:
7s
5F
7P
6D
ES
6F
BP
7D
9s
4s
4P
6P
50
T O C. FROM C.
:::k%
;:%:-28 7s
T O C. FROM c.
5s -15
5.006
4.794.-26
5F
"-8
See page 2 for Explanation
8.101
6.425,-26
5 369 1:279:-27 7P
"-8
1.361
8.850,-26
5P
65
1.503"-IO 3..568"-27
2.240 1.013"-26
8S
6F
3D -12
a 279 1:442:-27
-12
6D
"-7
3.224 1.588.-
"-7
25
3.609
1.722.-25
of Tables. 11
"-7
4.540
2.035.-25
4F "-9
4.776 1.420"-26
"-9 ::%:"-;ft
BP
"-7
7.312
2.924.-25
:::::"-;: 9s
70
"-7
1.211
4.389.-25
"-6
1.382
4.099.-25
"-6
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional COLLISIONAL
Transition Probabilities from Gryziliski Binary-Encounter Alkali Metal Atoms, T = 1000 “K-8000 “K TRANSITION
TO:
4s
4P
5s
30
LEVEL
TO:
75
5F
?P
bD
4P
5P
3D
5s
5P
T O C. FROM C.
9.401>.-lb
1.463u-12
2.073,~10
2.041~10
2.307
4.203.-29
2.09?.-20
9,030~20
i.100.-27
2.69?.-27
T O C. FROM C.
1.965
7s
5F
r-7
?P
2.009
3.401.-26
r-7
4.5171-26
COLLISIONAL LEVEL
TO:
19
bF 0P 70 9s LEVEL
;:gjJ:r:8
2.504,-10 2.259,-10 5.106,-11
1.490 r-9 1.205 r-9 2.070,~10
TO:
11
2.?54,.-10
75
9.414
TRANSITION
PROBABILITIES-POTASSI
1.1?2.-25
"-9
y.$#
v-g
1.710 1.62b
z9 m-9
bP
5D
bF
0P
70
9s
4F
m-0
1.3?0.-25
r-6
1.954,~25
m-6
2.510
2.089~Q5
::
E8:3
d
7s
bP 3.i5ar-13
4F
7.271
T O C. fROr4 c.
4.014
2.bOO.e:::
See page 2 for Explanation
::%i
3.212~25
.-6
50 1.?3?.-14 ?.3?0.-12
r-a
r-4
7P
I*;;
2.005
7D
bF
3D
5P
5.367
a-5
2.135
m-4
65
Q:W2
5F
9s r-6
6.399..-15
5s
2.502.-11 1.740,-20
m-7
3.222,,-26
TE-4000K 6s
*-5 3.325
T O C. FROM C.
1.822
?D
1.667
7.930
4P
50
r-0
l.b36.-26
0.5001-14
1.624
6.602
0P
1.133
:un
m-0
l.O4lr-2b
6F
w-7
bP
3.204
?.406.-27
60
?P
4F
1.003
5P
3D
::W”
5F
b.b55,-14
FROM
m-7
1.004,~25
5s
:::::g&
0.590
65
65
w-9
as
bD
.-7
6.160.-26
4P
4s
4.904,-
4.320
Formulas
TEs3000K
PROBABILITIES-POTASSIUM
LEVEL
4s
Transition Probabilities in Plasmas
7.095 ,-7 4.641,-26
5.34 5.91
bD 1.433 0.040..-26
a
u-0 m-27
0.64
0.17
bf
m-6
1.551
0.603.-26
m-6
1.022 l.Olb..-25
7
2.555
SD
r-8
3.764 2.46?.-26
m-27 ?D
0P u-b
r-3
bP
4F
1.42?.-25
w-6
3.673
2.080.-25
~-7
9s e-6
4.040 v-b 2.314,.-25
of bibles 12
Atomic Data and Nuclear
Doto Tables, Vol. 19, No. 1, January
1977
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition Probabilities from Gryzi&i Binary-Encou .nter Formu das Alkali Metal Atoms, T = 1000 “K-8000 “K
COLLISIONAL LEVEL
TO:
4s
TO:
5s "-9
6.$gj
.-$
3. 405 11392 :.p;
20 m-0 m-51
7:036."iO 3.500 ;::gof 4.46 0.40 6 1.534 1.321 2.93 2.00 s LEVEL
TRANSITION
4P 3.353
Transition Probabilities in Plasmas
r-9 ;rg m-10 u-10 u-9 "-9 .-IO "-10
PROBABILITIES-POTASSIUM
TE:5000K
5P
3D
65
4F
3.259.-12 6.434.-10
3.003.-12 5.599.-10
6P
1.670 "-4 1,605 "-6 1.620 r-7 1.34 "-7 1.07 a y-7 6.042 u-9 2.679 m-0 k333
58"
fi!J
;'t
3.323
s "-9 "-9
1.754 1.667
s
3.645 044 f * 5:9+46
2.406 2.311
75
5F
7P
60
0s
6F
0P
4s
4P
5s
30
5P
65
4F
1.193.-12 3.159.-29
1.499.-10 1.507.-20
4.362 6.025.-20
7s
5F
7P
"-9
5.430 7,660.-20
"-9
2.431 1.016.-27
6D
m-0
1.047 4.060.-27
8s
"-7
1.599 6.607.-27
COLLISIONAL 4s
4P
TRANSITION 5s
PROBABILITIES-POTASSIUM
"-7
2.763 1.032.-26
TO:
75
5F
7P
65
0s
6D
T O C. FROM C.
T O C. FROM c.
6F
See
4P
5s
7.437.-12 2.016.-29
4.951.-10 1.320.-20
9.635 5.919.-20
7s
5F
7P
lge 2 for Explanation
1.107 2.239.-26
"-6
1.475 2.995.-26
3D "-9
1.170 6.634.-20
"-6 "-6 u-5
:::z
u-3 "-4
:.;pj
"-4 "-5 u-5
5P u-0
4.456
9s
"-6
2.424 5.003.-26
"-6
r-0 r-0
8P
7D 3.260.-13
l.oai 5.404
6s
~-6
1.659
1-5
u-7
2.435
0s
6F
BP
2.967 6.359.-26
"-6
1.626 1.091
9s ;.g:.-g
21298
Z8
g*ggifi 21957 J:$j$
::g "-7 :r:
r-5 u-4
3.420
"-3 6P
m-7
5.619.-27
"-6
4
4F
4.111.-27
2.591 5.460.-26
"-6
50
1.304.-12
1.556.-27
6D
"-7
6:65&O .j.$;;"-lo
3.297 7.144 1.970
1.033
4s
"-7
5.039 1.766.-25
31455"L-9
"-6 "-7 "-7
0.441 1.715.-26
"-6
4F
p;J.-$$
3.114.-12 2.796,.-10 9.225 "-9
1.790 ;.+jq
5.096 1.975.-26
7D
0.490 7.745 LEVEL
5D "-7
TE=dOOOK
5P
3D
9s
"-3
4.610 1.597.-25
TO:
"-7 "-7
::t
6P
T O C. FROM C.
LEVEL
2.757 2.444
r-6 r-5
7D
ap
6F
"-9 "-9
r-5
m-0 "-0
3.394 T O C. FROII C.
50 1.550.-13 2.610.-11 1.293 1.706
5D
4.004 r-7 0.6101-27
0.007 1.630.-26
7D 5.370 1.269.-25
0.012.:;: 3.946
"-7
9s "-6
5.035 1.401.-25
"-6
of Tables.
13
Atomic
Data
and
Nuclear
Data
Tables,
Vol.
19,
No.
1, January
1977
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition Probabilities from Gryzidski Binary-Encounter Alkali Metal Atoms, T = 1000 “K-8000 “K
COLLISIONAL LEVEL
TO:
LEVEL
TO:
45
TRANSITION
4P
7S
PROBABILITIES-POTASSIUM
5s
5F
3D
2.796.-11
1.180
2.547.-29
1.187.-28
7s T O C. FROM C.
::t%,:26
1 353 i:881.-26
1.717
u-6
1 770 2:505,:26
LEVEL FROM
45
TO:
45
TO:
75
1.976,-11
4s T O c. FROt4 C.
7.645,-11 7.328x.-29
T O C. FROM C.
1.239 n.-6 1.241,,-26
7s
See page 2 for Explanation
r-8
5.218,,-28
4P
-6
TRANSITION
5F
7P
2.529,-11
4P
5s
2.286 u-9 1.074,-2A
2.668 ,.-a 4.657~-28
5F 1.575 1.608.-26
65
2.030 2.134.-26
6,934
1.356,-27
4F
6P
5D
6.12;
u-3
3:t22 1.366
::I m-6
9,997
m-7
6D
8s 3.004 m-6 4.530,.-26
3.539u-27
6D
8s
5.624,-12
3.141 5.208,-28 3.162 3.567.-26
.-7
3.308
3.414
m-6
4.470
u-7
4.816*-27
6F
5.246
1.376,-26
70
8P
5.256.-26
r-7
7.336.-27
u-6
5.987
9s
r-6
6.468
7.247.-26
1.038r-25
1.144.-25
4F
6P
5D
m-6
TEt8OOOK
5P
65
6F
8P
1.062,.-11
7D
9.833,.-12
9s
2.343.-12
2.298.-12
7D 6.477 ,,-6 8,674,.-26
9s 6.974 9,545.-26
5P m-8
9.7 1.1
a-6
3.356 3.028.-26
6D ..-6
2.321
PROBABILITIES-POTASSIUM
2.895,-12
6P
6s
r-8
2 823 "-6 41216 m-26
30
7P a-6
5P
m-8
3D
5s
1.792,-11
2.048 5.841.-28
7P
COLLJSIONAL LEVEL
TEs7000K
5P
3D
u-9
5F -6
Formulas
7P
4P T O C. FROM C.
Transition Probabilities in Plasmas
9 m-8 6 9,-27 8S
6F m-6
3.790 4.433,-26
r-6
8P 4.900 6.005.-26
"-6
.-6
of Tables.
14
Afomic Dab and Nuclear Data Tables, Vol. 19, No. 1, Janwry
1977
Transition Probabilities in Plasmas
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition Probabilities from Gryziriski Binary-Encounter Alkali Metal Atoms, T = 1000 “K-8000 “K TRANSITION
COLLISIONAL LEVEL
TO:
6P
6S
TE=lOOOK
PROBAEILITIES-CESIUtl 7P
7s
5D
Formulas
8S
6D
2.220"-25
2.024,-15
LEVEL FROM
TO:
3.752"-25 7.314..-17
:P 7P .5g
::m:::z 1.046 ;.p;
4F 8P
3.683 1.823
;ii 5G 9P
C. C.
T O C. FROM C.
"-9 y-9 "-7 "-7 "-4
6.05: 7.586 1.148
-6 z-6 "-6
6.056
u-4
::"1g ;.$t32
:I2 "-6 "-7 "-6 "-7
11s LEVEL
T O C. FROM C. T O C. FROM c.
3.6 6,la;4"-26 lu-18
5.743.3.d; 9.917.-27
;.073r-18 1.878.-26
0.049.-27 4.512.-19
a: :oqm
?%--:$ 1:221::10
k)92::14
9:tfkif 3.094.-11 1.184",d;
8%:::: 1.190.-11 :.448--l
hi;%:: &.:3s"-:f
1'
64,~11
6:853,-11
:* %--10 2:3fi2 ;;;
f:ij;
m 41982
;::+a
=I:
;ii
f;!%i
10s
@h$
;:i
;jfj~i;$
"-7
5.692
u-8
6.266
"-9
::i "-4 u-5
::::j 1.116 2.751
:-'6 "-5 "-5
"9:88 6.759 2.162 1.322
::t "-7 "-5 "-6
1107 "-5 "-5 "-6
2.333 6.115
:I$
S-Q : 71782 5.069 4.76;;
6.265
tee;
'$.$O:
"-6
3.553
"-6
3.353
1.600 3.162
"-7
81328
"-6 "-7
7.355 1.176
"-6
4.434 4.618
2.107 4':x
-
z--6
$:a2869;
50
7s
7P
6D
8S
1.917"-28 l.oll"-28
9.553,-21 4.945"-28
1.740.-18 9.2?9,-20
6.735"-16 2.224"-27
1.616"-13 6.170"-27
5.557"-13 8.085"-27
1.061"-11 1.671.-26
7D
9s
TO:
t : %,-;x
6S
6P
7.193,.-11
3.914,*-10
TO:
9s
7D
9P
50 2.029 9.137"-26
"-9
TRANSITION
6.335 1.459"-25
8D "-9
8.846 1.689"-25
2.476 2.728.-25
7s
7P
5G
9P
8D
10s
6S
6P
5D
7s
7P
6D
2.893"-14 3.347"-28
4.842"-13
1.280.-11
2.787.-10
5.649,.-10
7D
9s
5G
9P
8D
2.146 2.694,-26
m-8
See page 2 for Explanation
6.081 4.839"-26
u-8
7.406 5,445,-26
u-8 $:%,%i
3.999"-27
k%,%
u-8
6.071 4.311"-25
60
7.367,-18 6.951,.-29
1.472"-27
3:217 7.212
::: w-8
11s
6.181
r-5 4F
8P
.413*-11 .806.-26
1.711"-10 3.791"-26
9D "-8
7.301 4.761"-25
11s "-8
1.560 7.309"-25
"-7
TE-2000K
PROBABILITIES-CESIUM
5D
6.228"-28
5
1OP
10s "-9
"-7 "-6 "-7
.-;
6P
4'.fu;"-:~ . u-
9D
.,,y
=:; 3 "-5
-
1OP
65
COLLISIONAL LEVEL
8D
50
1.241 2.517 TO FROM
9P
9s
7D
65 6P
7.744 1.291 pa:;<
5.206"-27 10s :%k,:
8S
4F
1OP
9D
8S
4F
::%,-;:
:::k;:
1OP ;::k;:
11s
8P ::%k;:
9D ::i::,:;:
8P
11s ::%,-;;
of Tables. 15
Atomic Data and Nuclear
Doto Tables, Vol. 19, No. 1, Jmuary
1977
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition Probabilities from Gryziliski Binary-Encounter Alkali Metal Atoms, T = 1000 OK-8000 “K
COLLISIONAL LEVEL
TO:
6S
LEVEL
TO:
7D
6P
2.664"-16 6.132"-29
FRON
TO:
9s
6s
c":
6P
7D
9P
8D
4F
BP
1OP
a 8D
::%":26
9P 2.962 7.014":2a7
TRANSITION
PROBABILITIES-CESIUN
5D
7s
50
9P
10s
83::46:-%67
9D
1OP "-7
1.07 1.93
f:%"-25
1.193 2.121"-25
3 rd
11s "-6
1.872 3.158"-25
"-6
TE=3000K 7P
6P
SD
7s
7P
6.395,.-15 5.521"-29
4.045,-12 2.619"-28
3.641"-11 4.835"-28
3.904"-10 1.128"-27
3.776 3.010"-27
7D
9s
5G
9P
8D
65
hG
50
0s
60
6D
8s
4F
8P
1OP
9D
11s
-
TO:
FROM T O C.
7P
56
::i:$.$
6s
LEVEL
7s
-7 :::$;:
TE=2500K
5D
6.369"-1 5.431.-Z
COLLISIONAL LEVEL
PROGASILITIES-CESIUM
Formulas
5D
6. 48"-13 2. 4 30"-28
7D T O c. FROM C.
TRANSITION
6P
6s T O c. FROM C.
Transition Probabilities in Plasmas
::8:%67
See page 2 for Explanation
32:42%:26
7
$:A$;l&
-
5.923,-26 4.693
"-7
;.;zf.
of Tables. 16
60 "-9
6.397 3.897"-27
8s "-9
::;f::"f,,
4F "-8
1OP
108 ,:i:
2.322 7.775"-27
-7
1.606"-25 1.510
2.639 8.3701-27
BP r-8
9D "-6
11:759".25 667
tj.g$; . 11s
"-6
$:'bio%t
-- -;"6
J. KUNC
TABLE
I. Collisional
TO:
65
TRANSITION
6P
PROBABILITIES-CESIUM
5D
7s
LEVEL
TO: 6s 6P
7D
9s
l.OOO"-12 2.583"-10
in Plasmas
1.447"3.608,-11
13
4.355"-13 1.063"-10
Formulas
TE=40OOK 7P
9P
BD
1.065"-13 2.544"-11
2.794"-13 6.558,-11
as
6D
"-a
FROM
Probabilities
Transition Probabilities from Gryzidski Binary-Encounter Alkali Metal Atoms. T = 1000 OK-8000 “K
COLLISIONAL LEVEL
Transition
and M. ZGORZELSKI
4F
ap
2.803"-12 8.023"-10
3.451"-13 9.242"-11
5.254 10s 1.932"-13 4.428"-11
1OP
9D
3.487"-14 7.892"-12
1.283.-13
2.946.-14
11s
1.597".10
3.609.-11
2.075"-11
6.530"-12
w
9.076 6s T O C. FROM C.
7P
3.571,.-13 4.653,.-29
6.690"-11
3.358"-10
2.176"-20
2.281
3.989"-20
7D
9.200"-28
5G
"-9
1.461
2.4ibw27
60 m-8
2.258
3.114"-27
as "-8
9P
6.600
6.130"-27
“-5 4F
m-0
7.347
6.509"-27
1OP
COLLISIONAL TO:
6s
1.310 1.063
"-8
8P 1.914
u-6
3,673 1.080"-25
1.306.-26
"-7
IIS “-6
TE=SOOOK
7s
7P
6D
as
4F
8P
1OP
9D
11s
1.521"-12
2.793"-13
1.042"-12 1.025"-10 4.502"-10 2.023 1.920 3.129
"-9 "-8 "-8
2.427"-13 2.363"-11 1.031"-10 6.385"-10 4.261
1.016
"-4
"-9 "-6
4 =: t
2.36
4.345 7.465
PROBABILITIES-CESIUti
5D
FR 9.399 4.94
TRANSITION
6P
1-4
“-8
9D 2.555 1.285,-25
LEVEL
1.005
$.g"-lo
"-9 "-9
6.656
"-5
u-9
6.779,.-10 2.092 "-9
~.~;;"-I0
2:697":1s 7.246,.-10 3:: 8 59:::: 3.400,-10 7.604,.-11 LEVEL FROM
TO: 6S
1.083 2.352
"-8 "-9
7D
9s
5G
9P
6.041,-12
1.028"-12
3.170"-12
7.956"-13
6S
6P
5D
T O C, FROM C.
4.153"-12 4.052"-29
3.349"-10 1.070"-20
1.316 3.406"-28
T O C. FROM C.
3.706 i.208,-26
7D
9s "-7
See page 2 for Explanation
7.017 2.082"-26
56
2.133"-12
7s "-9
6.778 7.774.-28
7P "-9
3.373 2.013"-27
9P
0D
"-8
4.929 2.504"-27 10s
"-7 ::!k;:
::%,:;"6
::%.:;t
of Tables. 17
as
6D
::t::.f;:
m-0
1.261 5.029"-27
4F "-7
1.306 5.398"-27
"-6
3.316 9.914"-26
1OP 3.064 9.093"-26
6.055
"-9
m-9
ap "-7
3.229 1.057"-26
u-6
4.610
"-7
11s
9D
1.438"-25
“-6
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition
Alkali COLLISIONAL LEVEL
TOI
6S
LEVEL
TO:
70
2.166"-ii 3.604,.29
6P
1.001 1.642"-26 "-9
LEVEL FROM
::%.:;i
k;%;i
TO:
6S
TO:
70
6S
6.217,,-11
T O C. FROM C.
7.282,.-11 3.252"-29
6s
T O C. FROM C.
7P
3"-20"-9
8S
::%,:;t
7s
7P
6D
SS
4F
5,970 1.719"-27 r-6
8.407 2.199~27 r-6
1.963 4.230~27 "-7
2.130 4.5441.-27 "-7
6P 2.221 1.465,%1:
10s
BD
9P
3.255~26
k;fi.:;8
TRANSITION
6P
"-6
2.59
1OP
"-6 B "-26
4.92
3.669 7.289"-26
7P
7s
56
9P
50
7s
7P
9P
8D
6D
LA~;,r;~
L285w;;
;:fAf,&
',&9&"6
of Tables. 18
3.948 7.935"-26
4F
IOP
9D
8S
4F
s:a.:;;
6,652 e.522,aj;;
11s
9D "-6
BS
60
5%': 56
8P
'&6U.;;
"-6
5.370 1.143"-25
"-6
TE-7000K
PROBABILITIES-CESIUM
5D
9s
ap
4F
1.425 6.722"-26 r-6
5G
7D
See page 2 for Explanation
6D
IOP
1.766
COLLISIONAL LEVEL
7s
Formulas
TE-6000K
PROBABILITIES-CESIUM
5D 2.9 3,SfB
9s
70 T O C. FROM C.
5D
9P
6s c. FROM T O C.
Probabilities from Gryzifiski Binary-Encounter Metal Atoms, T = 1000 “K-8000 “K
TRANSITION
6P
Transition Probabilities in Plasmas
10s 3.004 4.079"-26
4.171 6.002"-26
11s
ap
53882.:;5
lop "-6
ap
?:%.s3
11s
9D "-6
4.470 6.525"-26
"-6
5.987 9.347"-26
"-6
Transition Probabilities in Plasmas
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition Probabilities from Gryziriski Binary-Encounter Alkali Metal Atoms, T = 1000 “K-8000 “K
COLLISIONAL LEVEL FROM
TO:
65
TRANSITION
6P
PROBABILITIES-CESIUH 7s
5D
Formulas
TE=8OOOK 7P
6D
8S
41
1OP
9D
BP
6s
"-8 LEVEL
TO:
9P
7D
6S T O C. FROM C.
1.817,-10 2.96610-29
T O C. FROM C.
8.283 7.354,:;:
7D
See page 2 for Explanation
6P 4.075 1.322.-28
50 m-9
1.102 2.367,-
m-6
1 499 1:373,-26
9s ::%,.-26
7s m-0 20
3.707 5.264,-28
m-6
2 140 2:039,%
7P w-8
6D
1.248 u-7 1.318,.-27
9P
50
an k%,,:26
3.256
1.671 1.676.-27
8S u-7
10s -6
3 356
3:447,-26
3.467 3.177~27 1OP
u-6
::%,t
11s
4F u-7
3.733 3.400.-27 9D
::%,-;f
BP m-7
7.294
6.469.-27
,,-7
11s
::i::.-;i
of Tables. 19
Atomic Dot. and Nuclear Ddo Tobler, Vol. 19, No. I, Jonuory
1977
J. KUNC and M. ZGORZELSKI
TABLE
II. Collisional
Transition Probabilities from Modified Gryzilislci Binary-Encounter Cesium, T = 2000 “K, 5000 “K, and 8000 “K
COLLISIONAL LEVEL
T O C. FROM c.
T O C. FROM c.
To:
TRANSITION
6P
65
Transition Probabilities in Plasmas
TE=ZOOOK
PROBABILITIES-CESIUH
5D
7s
5G
9P
7P
6D
6S
6P
5D
75
?P
6D
1.164"-17 3.410"-20
1.139"-13 1.310"-27
1,?40.-12 2.240"-27
4.101"-11 4.?14"-27
7.705"-IO 1.117"-26
1.523 1.403"-26
70
9s
5G
9P
0D
::;g*:;:
;:::;*:;;
COLLISIONAL LEVEL
TO:
65
LEVEL
TOI
7D
6P
::;1;:.:;:
::tg,:;;
TRANSITION
PROBABILITIES-CESIUM 7s
50
9P
6S T O C. FROM C.
::;
T O C. FROM C.
4.000 1.0?6"-26
::g:.:;;
SD
7D
9s "-7
See page 2 for Explanation
1.030 3.056"-26
I.148 3.373"-26
"-6
1OP
9D
ES "-9
7.674 2.590"-26 1OP
g::g.r;:
1.002 4.005"-25
0P
11s
4F "-9
0.993 2.?65"-26
"-6
1.210 4.355"-25
8P r-9
3.614 5.165"-26
"-6
a.;$; ,
"-0
11s
9D
.-
.;$
Tf=SOOOK 6D
7P
::gf"z;p
1.704 4.905"-26
4F
4F
0s
BP
1OP
g:;
9P
50 "-6
8S
10s
7P
7s ,z;g
t 57::::
Formulas
6D
3 ;,r;$f
10s
all "-6
1.919 5.513"-26
of Tables.
20
:::l:"$
"-6
2.794 0.006"-26
1OP "-6
3.926 1.165"-25
11s
9D "-6
4.210 1.261"-25
"-6
5.700 1.775"-25
"-6
Transition Probabilities in Plasmas
J. KUNC and M. ZGORZELSKI
TABLE
II. Collisional
Transition Probabilities from Modified Gryziriski Binary-Encounter Cesium, T = 2000 “K, 5000 “K, and 8000 “K
COLLISIONAL LEVEL
TO:
65
LEVEL
TO:
70
6s T O c. FROM C.
4.658,s-10 7.604,-29
T O C. FROM C.
1.122 m-6 9.962,.-27
70
See page 2 for Explanation
TRANSITION
6P
PROBABILITIES-CESIUM
50
TE=BOOOK
7s
7P
60
BS
9P
6P 8.605 2.790"-28
50
Formulas
4F
BP
1OP
z7s
7P
6D
8S
4F
8P
m-9
9s ::%.~;~
#%,$
8:fti.:;$ 5G
1.923 1.760.-26
::!::":27
9P "-6
2 657 2:532”:;:
80 %:8,-$
of Tables.
21
-7
2 621 2:629"-27 10s ::;::.:;f
"-7
5 091 4:664"f;: 1OP ::i:;.:;:
::d:;,:;: 9D ::!::.:,g
::t::,:;: 11s ;:fjfm:;:
DATA AND NUCLEAR
DATA TABLES
COLLISIONAL FOR
ALKALI
19, 1-2 1 (1977)
TRANSITION
PROBABILITIES
METAL
ATOMS
FROM
1000 “K TO 8000 OK
J. KUNC
IN THERMAL
PLASMAS
and M. ZGORZELSKI
Warsaw Technical University Warsaw, Poland
Results are presented of the transition probabilities induced by electron collisions with lithium, sodium, potassium, and cesium atoms. The probabilities are described with the aid of the classical binary-encounter theory. The electrons are assumed to be Maxwellian. The range of temperatures covered is from 1000 “K to 8000 “K.
CONTENTS
INTRODUCTION Scope of the Paper EXPLANATION
OF TABLES
TABLE I. Collisional Transition Probabilities from Gryzinski BinaryEncounter Formulas. Alkali Metal Atoms, T, = 1000 OK-8000 “K TABLE II. Collisional Binary-Encounter 8000 “K
Transition Formulas.
Copyright 0 1977 by Academic Press, Inc. All rights of reproduction in any form reserved.
Probabilities from Modified Gryzinski Cesium, T, = 2000 “K, 5000 “K, and
1
AIomc
Data
od
Nuclear
Doto
Tables,
Vol.
19,
No.
1, Jonuory
,977
J. KUNC and M. ZGORZELSKI
Transition Probabilities in Plasmas
atomic energy levels. The levels are described by the principal and total orbital angular momentum quantum numbers. The energy of such a level is calculated as a weighted average over all substates of energies Ei, according to the formula:
INTRODUCTION Scope of the Paper
The data presented in the present paper are the result of a continuation of the previous research work by the same auth0rs.l While the earlier publication described collisional transition probabilities in electronatom collisions for atomic hydrogen, the present paper extends the area to the four alkali metals: lithium, sodium, potassium, and cesium. As before, the classical Gryzi6ski2 binary-encounter theory of electron-atom collisions was used as the method of calculation of the basic table (TABLE I). Similarly, as in the previous paper, exemplary calculations for comparison purposes were made, for cesium only and for selected temperatures, according to the modified binary-encounter formula3 (TABLE II). All details of the calculations, as described in the reference,l remain virtually unchanged. The tables give the values of collisional transition probabilities between
+ lIEi
x(24 El = i C(2-4
+ 1)
References
1. J. Kunc and M. Zgorzelski, ATOMIC DATA AND NuCLEARDATA TABLES 15, 543 (1975) 2. M. Gryziriski,
Phys. Rev. A 138, 322 (1965)
3. M. Gryziriski and M. Zgorzelski, Proc. of the VIII International Conference on the Physics of Electronic and Atomic Collisions, p. 396, Beograd (1973)
EXPLANATION
OF TABLES
The transition probabilities K,,, between discrete levels and Kc, between discrete levels and continuum are tabulated. K,,, is given for’the first 18 levels of each atom K n,m
Number of transitions per set per cm3 from level n to level m, per unit density of electrons n,, and per unit density of atoms in level n,, thus K?l,mnnne gives the number of transitions per set per cm3
To C
To continuum
From C
From continuum
K c,n
Number of recombinations per set per cm3 per 8: and unit density of ions q, thus Kc,,nin,2 gives the number of transitions per set per cm3
TE
Temperature tion
of a Maxwellian
free-electron distribution
func-
Examples For lithium at T, = 1000 “K we read in TABLE I the excitation probability from the ground state (2s) to 2P is 7.246 IO-** cm3/sec The inverse deexcitation process (from 2P to 2s) occurs in lithium at 1000 “K at the rate 1.003 10e8 cm3/sec Direct ionization from 2s to continuum occurs in lithium at 1000 “K at the rate 2.354 1O-36 cm3/sec. The three-body recombination into the ground state occurs at 4.508 1O-2g cm6/sec
2
Atomic
Dda
and
Nuclear
Data
l&lea,
Vol.
19,
No.
1, Jmwary
1977
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition Probabilities from Gryzihski Binary-Encounter Alkali Metal Atoms, T = 1000 “K-8000 “K-
COLLISIONAL LEVEL
TO:
LEVEL
TO:
2S
TRANSITION
2P
5S
Transition Probabilities in Plasmas
PROBABILITIES-LITHIUM
3s
5P
3P
50
TE=lOOOK 3D
6s
Formulas
4s
bP
4P
7s
4D
4.616
m-4
2.404 2.015 9.522 2.772 2.409 0.446
r-b r-7 "-7 "-7 "-7 r-0
it:&
$5
7P
0P
1.717
T O C. FROM C.
T O C. FROM C.
2s
2P
3s
3P
3D
4s
4P
4D
7.354,-36 4.500.-29
1.405,-26 1.943,-20
2,556"-10 1.353"-27
9.992"-lb 3.290"-27
1.932"-15 3.679.-27
9.671"-13 1.272"-26
1.224"-11
1.632"-11 2.604"-26
5s
5P
50
65
bP
7s
1.476 1.120"-25
3.640,.-10 6.757,.-26
"-9
COLLISIONAL LEVEL FROM
s
TO:
25
1.730
1,190"-25
"-9
TRANSITION
2P
3s
1.047
2.523"-25
r-0
2.476
3.700"-25
"-0
0.799
7.307"-25
PROBABILITIES-LITHIUM 3P
2.407"-26
"-0
7P
0P
1.560 1.013":;:
6.549 2.516"-24
4s
4P
4D 2.210.-20
3.764 3.323 1.030 1.643 6.313 LEVEL
"-7
TE=POOOK 3D
25
FROM
"-5
TO:
5s
5P
5D
6s
6P
7s
3.603"-21
1.540
3,092 y4"4
y-0 *-$
::331
::5 "-3 1.016
5;
5:Hd 2P
T O C. FROM C.
2.501 4.123,-26
2.271"-17 1.332"-20
5s
See page 2 for Explanation
5.970"-13 9,073.-20
5P m-0
6.001 6.705"-26
4D "-0
6.700
7.109"-26
"-0
f.f.f .
"-4 "-5
P
3P
3D
4s
4P
1.594"-11
2.301"-11
2.174"-27
2.426"-27
7.770"-10 0.165"-27
3.402 1.510"-26
65 w-0
1.240 "-4
3.715
1.765"-22 3.124"-29
7P
1.916"-22 &:$;=I::
"-6
T O C. FROM C.
"-7 "-7 r-7 "-7 r-0
2.070 1.461"-25
6P "-7
3.609 2.140"-25
7s "-7
a.272 4.020"-25
4D "-9
7P "-7
4.029 1.639"-26
"-9
0P 3.219 1.293"-24
"-6
of Tables, 3
Atomic Dab
ond Nuckm
Ddo Tables, Vol. 19, No. 1, January
1977
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition Probabilities from Gryzihski Binary-Encounter Alkali Metal Atoms, T = 1000 “K-8000 “K
COLLISIONAL LEVEL
TO:
2s
TRANSITION
2P
5P SD
4.802"-11 4.232,.-10
2.052
65 bP 7s 7P 8P
1.953".-10 1.667.-10
3%5--:8
LEVEL
TO:
T O C. FROM c.
8.745,.-18 ?.500,.-29
T O C. FROM C.
1.173 2.956,-26
3D
4s
4P
4D
1.150"-15
4.149"-15
3.665.-16
2.609"-17
1.744.-lb
6S
bP
"-9
6.422"-10 2.832"-10 5P
5s
3.883"-17 1.628,s-13 3.423"-10
3P
3:364:-10
7.248"-11 1.398"-10 6.233"-11
2S 2P 3S
Formulas
TE-3000K
PROBABILITIES-LITHIUM
3s
4.361"-11
FROM
Transition Probabilities in Plasmas
3.479"-18 l-440,-14
2s
2P
3s
3P
3.109,-14 1.055"-28
4.233"-11 7.039,-28
4.582"-10 1.665"-27
5P
5s "-7
2.288 4.740.-26
COLLISIONAL
2.471
5.016.-26
"-7
TRANSITION
6.048
l.OOJ,-25
7P
8P
7.000"-18 2.7091-14 4.502"-11
3.175"-18 l-215"-14
8.121 "-9 b.O9bu-27
2.475
1.960.-11
4P 5.995"-10
1.854m-27 bP
6s
5D u-7
7s 3.683"-18 1.439"-14 2.458"-11
r-7
9.414
1.462.-25
7s "-7
1.843 2.676,-25
1.118.-26
"-8
2.814
w-6
5.655 8.234".25
7P r-b
2.518 3.605~25
1.204.-26 8P
TO:
2s
2P
3s
3P
30
4s
4P
4D
LEVEL
TO:
5s
5P
5D
65
6P
7s
7P
8P
2s 2.098,-15 2.122,.-29 5s T O C. FROM C.
2.585 "-7 2.280,.-26
See page 2 for Explanation
PP
3s
1.235"-12 8.873"-29
3.790"-10 5.804"-28
5P
5D
4.573 3.614"-26
u-7
4.885 3.820.-26
3D
3P 2.599
1.357.-27
"-9
65 "-7
3.234
1.509.-27
4s "-9
bP
1.056 "-6 7.537..-26
r-b
TE.4000K
PROBABILITIES-LITHIUM
LEVEL
T O C. FROM C.
"-8
1.551 1.083"-25
4P -8
$:%,:27
8:804.-27
4D a-8
7P
7s "-6
6 963
2.790 1.950"-25
"-6
3.673 2.605"-25
k:%,-;8 8P
m-6
7.529 5.812"-25
m-b
of Tables.
4
Atomic Data and Nuclwr
Data Tables, Vol. 19, No. 1, January
1977
J. KUNC and M. ZGORZELSKI
ABLE I. Collisional
Transition Probabilities in Plasmas
Transition Probabilities from Gryziriski Binary-Encounter Alkali Metal Atoms, T = 1000 “K-8000 “K
CDLLISIDNAL
TRANSITION
PROBABILITIES-LITHIUM
TE=5000K
LEVEL
TO:
2S
2P
3s
3P
3D
LEVEL
TO:
5S
5P
50
6s
6P
2s T O c. C. FROH
5.067"~14 1.861.-29
2P
3s
1.169"-11 7.709,.-29
1.459 4.952"-28
5P
50
5s T O C. FROM C.
4.219 "-7 1.836,.-26
7.017 2.005"-26
COLLISIONAL LEVEL FROM
TO:
2S
25
"-7
7.445 3.045"-26
3P "-9
"-7
1.409 5.924"-26
4s
4s "-9
9.150 1.272"-27
5.858 4.025"-27
6P
7s
4D
4P "-B
4D :::;:,:;:
::;:k,: 7P
BP
"-6 k::;,:;:
:::k;;
PROBABILITIES-LITHIUM
3s
4P
7P
3D "-9
65
TRANSITION
2P
7.580 1.145"-27
Formulas
ft:%:,f;f
t:;:',,:;;
TE=600OK
3P
4s
3D
4P
4D
-
m
6.532
LEVEL
TO:
5S
5P
6S
5D
6P
"-6
7P
;.:g;“-:; 7:095::10 3.596
2s T O C. FROM C.
5.555,-13 1.666,.-29
T O C. FROM C.
5.893 1.523":;;:
2P
3s
5.363"-11 6.040"-29
3.656 4.321"-20
5P
5D
5s
See page 2 for Explanation
;::;:,f;;
;:;t:,.$,
3P "-9
1.574 9.097"-28
4s
30 m-8
6S
1.862 1.098"-27 6P
i:t::.-;b
i?:;:.:;:
m-13
9.820 3.4201-27 u-8 7s ::$;:,-;$
4P
40
26:8%.:,:
2.232 6.523"-27
7P ::$;:.:;$
"-9
m-7
BP 9.972 3.420"-25
"-6
of Tables. 5
Atomic Dota and Nuclear
Data Tables, Vol. 19, No. 1, January 1977
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition Probabilities from Gryzihski Binary-Encounter Alkali Metal Atoms, T = 1000 “K-8000 “K
COLLISIONAL LEVEL
2s
TRANSITION
PROBABILITIES-LITHIUM
3s
3P
SD
5S
5P
50
65
6P
2P
3s
T O C. FROM C.
2.019"-12 1.513"-29
1.610"-10 6.159"-29
7.137 3.030"-20
T O C. FROM C.
7.512
2S
LEVEL
5s
1.291,-26
5P "-7
1.160
1.999.-26
TO:
2s
1.221
2.107”-26
1.030
LEVEL
:F"
e-0 "-0 "-0
ZP 5D
1 44; 41626
::?
$8
'2:3::
5
:c 0P
:*:t: 21032
::: "-7 2s
T O C. FROM C.
9.659"-12 1.309..-29 5s
FR::
$1
9.033 "-7 1.113,.-26
See page 2 for Explanation
r-b
3.004
6S
4.011r-26
1.051 1.501
9.490 g::gg 2.524
"-9 =I; "-9 SD
8: :g;:;: 8; t 0: :rg’ "-9
5.3 7 u-0 2.d04 a "-0
::;:a 4.062 1.476
=:q "-7 "-5
6.245 1.907 0.745 1.634 2.109 5.044
2:20 i 2.636 4.742 6.269
z5 "-6 "-6 "-6 "-7
3
2.39: 1.0 :*54 61401
85
3.749"-10 5.607"-29
1.109 3.436"-20
5P
5D 1.4 1.0
5.652r-26
4.790 9.052u-26
2.020 5.221.-27
m-6
5.907 1.295.-25
7s
40 "-7
3.053 5.597.-27
m-6
1.076 2.764.-25
7P
"-7
0P r-5
TE=BOOOK 3D
4P
4s
0.442"-11 p;gg
"-6'
21907
::4
40
7P
6P
54 r-6 "-5 n-3
w-6
::f 3s
"-6
u-6
"-7
"-5 7 u-5
2P
1.362 1.713"-26
1.432 2.960.-27
PROf3ABILITIES-LITHIUM
6S
7.352
4P "-0
bP
y-0 "-7 "-6 "-7 "-0
5P
5S
4.432"-12 2.192"-10 1.244 IpJ
2.220
3.125 9.633"-20
,*.-a
5.047,-10 1.050"-10 2.209"-10 ?.005,-11 1.571.-10 6.749.-11 TO:
25 ZP 3S ;g
4D
7P
30 "-0
3P
yg:
FROM
"-6
3s 2
5D 6S 6P 7s 7P BP
2.603 0.696"-20
TRANSITION
2P
25
3P "-9
SD
"-6
COLLISIONAL
FROH
4P
4-3
-
TO:
LEVEL
Formulas
TE=7000K
2P
FROtl
TO:
Transition Probabilities in Plasmas
"-6
"-a
4.031 7.740"-20
1.910
"-5
4.790
3D
3P r-0
4.642 0.564.-28
w-0
1.909 2.599.-27
"-7
3.590 4.553"-27
6P
6s
y-5
4P
4D "-7 3:t:2,:;:
7P
0 "-6 P 5"-26
of Tables.
6
Atomic Data ad
Nuclear
Data TcUe,
Vol. 19, No. I, hnuory
1977
Transition Probabilities in Plasmas
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition Probabilities from Gryziriski Binary-Encounter Alkali Metal Atoms, T = 1000 OK-8000 “K
COLLISIONAL
TRANSITION
LEVEL
TO:
3s
3P
4s
LEVEL
TO:
6S
5D
6P
3s T O C. FROM C.
6.138,-35 5.120,.-29
T O C. FROM C.
5.781,-10 ?.535,.-26
3P
4s
8.683"-24 3.201"-28
6S
8.1 1.5
5D
FROM
TO: 35 3P
TRANSITION
3P
1.72;
::I
9.00s
i-t
$#
1.267"-16 2.524,.-10
4F
5P
2.178"-11 2.680.-26
4.509"-11 3.305~26
1.472 2.802"-25
6D "-8
7P "-8
4P
5.146"-18 7.092"-12
3.735"-18 4.500"-12
7.322
--O
2*651
-2
$$$j
:I?
::::p
:I,
,.-a
1:11e
=:$
;:g:
=:;
a.;;;
"-7
$:& f.;
$ m-;
1.532,,-10
1.130
1:; "-9
:';f% 6.9
c;
$h$j
;;I
6P 60 7s 7P 8S 7D 8P
3.617.-10 6.792,,-11 1.797,-10 l-460"-10 7.808,-11 2.456.-11 8.617,.-11
2.619 I.271 .754,-i: " I.012 "-9 5.348"-10 $:f129,-10 672,.-10
Z.3: 5.590 2.896 8 969"-10 3:092
5 "-9 "-9
%472078 1.536 7.804 2 395 8:168
$8 m-8 m-9 "-9 "-9
50
6P
1.511,-20 1.313,.-14
4.013"-21 ;$..:A;
8.441"-21 ;.g*-;:
.%
39:212,.-10 017,-11
2:203"-10
4:231iz10
T O C. FROM C.
9.596,,-22 3.544,-29
T O C. FROM C.
3.418 4.571,-26
6S
-t Z-8 "-8 "-8 "-9 "-8
1.279 4.237 7P
8S
7D
BP
9.288.-22 7.350"-16 1.420"-12
2.?38"-22 2.154"-16 4.121"-13
9.428"-22
See page 2 for Explanation
"-5 ::; 5s
6.831"-16 2.184,.-28
1.122"-12 1.006,-27
2.478"-11 2.357x.-2?
6.523"-11 3.196"-27
1.162 9.116"-27
6P
7s "-7
2.583 1.610"-25
6D "-7
y-3 u-5 "-6
1.980"-21 1.585"-15 3.124"-12
4P
1.001 8.624"-26
5P
6D
3D
"-8
::!ik;:
9.770"-22 7.901.-16 1.584"-12 4.173"-11
4s
7.406 7.167,-26
BP "-7
u-8 m-0
3P
50 "-8
2.314 1.218"-24
s
3.950 9.119 2.904
a.749 ::::g 3s
7D "-7
4F
ii8 :.g;' 2.238 1.126 3 441 1:168
7s 3.033"-21 3. 480"-15 071,.-12 1:362"-10
1.286 8.599"-25
3.957"-20
[if
5D
8s "-8
5s
I$%!
"-9
5.057 5.152"-25
TE=2000K
30
5;
6s
3.527 4.281"-25
PROBABILITIES-SODIUM
21676 5.347
TO:
BP
40
6.89;
3s 3P
7D
1.885"-11 2.574.-26
. 3.415",-9 3*139 7.446
LEVEL
8S
5s
::8
"-9
5P
1.942"-12 1.426"-26
:;f
t..;
4F
4P
4s
1.493"-13
40
l-242.-14 4.877"-27
7s "-9
5s
3D
9.489,-11 4.148,-10 9.404,.-10 4'171'"-10
2
FROM
3s
3.268 l-459,-25
4P
2.205"-15 3.575"-27
6P
2.029 "-9 1.203,.-25
COLLISIONAL LEVEL
9"-18 t 3"-27
TE=lOOOK
PROBABILITIES-SODIUM 3D
Formulas
4.540 2.412"-25
"-9
7P "-7
3.558
5.744 m-7 2.877,.-25
4.306 1.618"-26
"-9
4.776 1.683"-26
"-6
1.580 6.504"-25
8S 1.065 4.670"-25
"-9 "-8
::;g
::$
r-3 4F
4D
9.893 1.093
5P "-9
7.350 2.062"-26
"-6
1.810 7.316"-25
7D
"-9
BP "-6
of Tables.
7
Atomic Data and Nuclear Data Tables, Vol. 19, No. I, January
1977
.i. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition Probabilities from Gryziriski Binary-Encounter Alkali Metal Atoms, T = 1000 “K-8000 “K
COLLISIONAL LEVEL
TO:
LEVEL
TRANSITION
3P
4s
PROBABILITIES-SODIUM
6S
5D
1.015"-16
3.009"-17
3s
3P
4s
3D
4P
T O C. FROM C.
2.017,-l? 2.034"-29
3.405"-13 1.722"-20
6.672"-11 7.700"-28
6.327"-10 1.001"-27
1.209 2.420"-27
7s
6D
FR%
1 450 3:::":;:
6P
6P f:
"-7 "-26
kt':;
COLLISIONAL
3.306 6.040"-26
TRANSITION
LEVEL
TO:
3S
3P
4s
LEVEL
TO:
6S
5D
6P
3s T O c. FROM C.
;.m~"-l' .
"-29
6S T O C. FROM C.
3.113 "-7 2.508,.-26
See page 2 for Explanation
m-7
:%&a:;,7
4s
3D
5.466,-10 6.409"-28
3.379 1.464"-27
5D
6P
7s
5.221 3.839"-26
"-7
6.401 4.573,-
::i
*-7 26
1.220 0.230"-26
4F
5P
1.705".16
3.?14"-16
7P
0S
7D
0P
1.099 6.701"-27
4D "-8
B 8.-.;5"
3.204 1.234"-26
5P "-0
4.453 1.504"-26
"-0
::%.%
TE-4000K
4P
5s
40
4F
5P
7P
8S
70
BP
5s
4D
4F
5P
"-9 f:%,:;?
k:%-;8
60 "-6
4F
3.002 "-0 1.100,.-26
7P
4P
30
3P
4D 3.064.-l?
5s "-9
PROBABILITIES-SODIUM
0.137"-12 1.441"-20
5s 9.035"-16
60
7s
Formulas
TE=3000K 4P
3D
3S
FROM
TO:
3S
Transition Probabilities in Plasmas
1.022 l-204,-25
8::%"-27
7P "-6
2.152 1.421"-25
v-0
0 645 v-0 916911-27
0S "-6
3.345 2.241"-25
7D "-6
4.454 3.050"-25
:::%-;: BP
"-6
4.921 3.405"-25
"-6
of TabIes.
8
Atomic Dota and Nuclsar
Data Tables, Vol. 19, No. 1, January
1977
Transition Probabilities in Plasmas
J. KUNC and M. ZGORZELSKI
TABLE
LEVEL
TO:
‘lp
5P $8 6P 7s % 8s 7D 8P LEVEL FROM
1.286 "-9 :::;:::r:g 4.352,.-10 2.022..-10 71:636,,-10 259,.-11
3D
::::i"-"
u-8
1.26i ;.gg:
w-6 u-4
7:984 3.546 ;.;;3
::9 "-8 u-g
s:3sa
z9
ES-SODIUM
TE=5000K
4P
5s
40
4F
6P
6S
7P
8s
7D
ap
1.644"-14
3.745"-14
2.019"-14
6.379"-15
2.389"-14
:: %“-12 "-9 "-7
5.983
ap
5.145
"-5
1.181
m-9
:::gg
c:$
$:g$: 1.370
=r: "-6
5.733
"-4
"-9
m-5
.-7 3P
3s 1.242,,-13 2.105"-29
4.977 "-7 7.014,.-26
1.994 5.459"-28
5D
6P
7.902 3.057,.-26
"-7
COLLISIONAL 3s
4P
30
5.673,-11 1.246"-28
6s
TO:
7s 4.515"-14
3.837"-14 2.263"-11
1.188,-13
4.039
9.486 3.628"-26
u-9
"-9
1.569 1.649"-27
7s "-7
TRANSITION
3P
9.504 1.234"-27
4s
1.705 6.455"-26
5s u-8
7.296 4.453"-27
6D "-6
2.438 9.359"-26
2.836 l.lOO"-25
y-7
TO:
6s
5D
"-6
4.240 1.717"-25
4P
5s
"-6
T O C. FROM c.
6.855 1.667,.-26
21~101"-:i 119
.
65
"
::5::
"-6
1.239 2.972"-26
See page 2 for Explanation
1.048 2.511,-26
1.926 1.065"-27
"-6
2.130 5.233"-26
6P
50 "-7
"-9 "-28
.-a
3.012
"-6
2.967 7.537"-26
1.418"-27
BP "-6
6.038 2.505"-25
4F
5P
1.995~12
8s
7D 4.220"-14
"-6
1.197 3.775"-27
"-6
3.414
"-7
2.331 6.423"-27
"-6
4.966
7P
B.R34,-26
::%:::: 1.088
4F "-7
2.435 6.659"-27
"-6
6.343
8s
1.36am-25
ap
l.Oll.-11 2.942e10
4D
.-a
6D
7s
%d:.:;:
7.545013
1.326"-13 3.196"-11
4P
3D -
5.510 2.322"-25
4D
7P
6P
3P 1.058,.-12 1.883.-29
5P r-7
70
as
9.412~10
T O C. FROM C.
1.599 ?.925"-27
TE=6000K
PROBABILITIES-SODIUK 3D
1.524 ?.639"-27
7P "-6
4F
4rl u-8
1.618x.-13
LEVEL
5P
a.450,.-ii
fl
LEVEL
PROBABILITI
45
Formulas
2.566,.-11 9.456,-11
3.861
T O C. FROM c.
TRANSITION 3s
8.006
T O C. FROM C.
Transition Probabilities from Gryzifiski Binary-Encounter Alkali Metal Atoms, T = 1000 OK-8000 “K
4.7 a a,-10 1.0 3,.-10
TO:
35
I. Collisional
5P r-7
3.040 8.030"-27
"-6
6.910
70
1.839,-25
m-9
"-7
BP
2.043.-25
"-6
of Tables. 9
Atomic Dota and Nuclear
Da,., Tobler, Vol. I9, No. 1, Jonuory
1977
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition Probabilities in Plasmas
Transition Probabilities from Gryziliski Binary-Encounter Alkali Metal Atoms, T = 1000 “K-8000 “K
COLLISIONAL
TRANSITION
PROBABILITIES-SODIUM
Formulas
TE=?OOOK
LEVEL
TO:
35
3P
4s
3D
4P
5s
4D
4F
5P
LEVEL
TO:
6s
50
6P
7s
6D
7P
0s
70
BP
3s
3P
4s
T O C. FROM C.
4.900.-12 1.709"-29
5.510"-10 9.074"-29
9.150 4.209"-20
T O C. FROM C.
0.649 1.410"-26
6s
1.285 2.111"-26
"-6
COLLISIONAL LEVEL
TO:
1.504 2.492"-26
"-6
2.499 4.350"-
"-0
4.046
"-6 26
3.4 6.2
4s
5s "-0
1.710
4 "-6 s Ow-26
3.096
1.240"-27
7s
TRANSITION
3P
35
3.223 9.343"-20
6P
5D "-7
4P
3D "-9
3.261"-27
7.204"-26
:.d2P
5D 6P 75 6D 7P 0s 7D BP
1:74i$iO 4.646"-10 2. 19,.-10 7. f Ol"-11 1.710"-10 0.747"-11 2.632,.-11
LEVEL FROM
*;g
9.017"-11
TO:
t.H:O
"I8
:;J$;
fr;
1.565
"-9
5.467,.-10
4P
6.051"-10 5D
6P
7s
"-6
T O C. FROM C.
1.612,.-11 1.567,-29 6s
T O C. FROM C.
"-6 1.032 1.213,,-26
See page 2 for Explanation
3P 1.143 0.956"-29
2.927
1.496 ::gq
"-7 ::;
4::%!
::8
:::%f
9
7P
"-9
1.495 3.771"-20
"-0
6P "-6
1.14 1.44
0s
1.740 2.120"-26
4.776 0.304"-20
4P m-0
6,969 1.099"-27
7s "-6
"-6 "-5 "-3
i
2.760
3D
3%
3.790 5.254"-26
"-4 y-5 "-5
5s u-0
7,592 1.663"-25
BP
"-6
2.263 2.050"-27
"-7
"-6
4.299 6.130"-26
9-2
21972 7.960
::b "-7
BP
7D
2.15 3 ;.gfjg
s-9 "-;
61790 1.627
::0 "-7
2.036 2.960 1.359 5.439 1.245
"-6
he-5 "-5 "-4
2.160
"-4
ij: P&:f
t
"-6
2.042
"-4
1.677 2.306
4.024 4.796"-27
6.026 9.3701-26
w
4.103
"-5 "-4 "-3
4F "-7
4.179 4.969"-27
"-6
7.522 1.249"-25
0s "-6
:.gg
4.496"-13
4D
7P
6D "-6 "-26
"-6
"-6
g-0 ::g
6D
m-6 4s
5D 1.499 l.R07"-26
1.629
7.000 1.499"-25
"-7
5P
6.035 4::g
9.269 :.$x7;
3s
1.12 5.55%
4.063 6.0659-27
7D "-6 "-25
;&9:':;
"-7 "-6
5.700"-27
"-7
4D
6.426,.-12 6.364,,-10 1.374 ,-a
3.076 1.166
3.300
0s "-6
5s
1.231 "-9 6.202,.-10 1.053"-10
6s
5.500"-27
5P
4F "-7
TEr0OOOK
PROBABILITIES-SODIUM
1.977
ZE
3.178
7P
6D
3D
4D "-7
5P "-7
5.066 5.962"-27
"-6
0.130 1.304"-25
70
"-7
BP "-6
of Tables 10
Atomic Data and Nuclear
Data Tables, Vol. 19, No. I, January
,977
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition Probabilities from Gryzihski Binary-Encounter Alkali Metal Atoms, T = 1000 OK-8000 “K
COLLISIONAL LEVEL
TO:
TRANSITION
4P
4s
Transition Probabilities in Plasmas
5s
TE=lOOOK
PROBABILITIES-POTASSIUN 5P
30
6s
"-9 LEVEL FROM
TO: 4s
"-7
T O C. FROM C.
T O C. FROM C.
5F
7P
2.204"-28
1.661"-28
75
4.003,.-28
3.136
ES
6D
1.735
4F
r-8
2.750
6P
v-8 8P
6F
5.369
5D
r-8 7D
9s
"-7
4s
4P
5s
3D
5P
65
4F
1.006,-30 7.799"-29
4.139"-22 3.930"-28
1.401"-16 1.924"-27
3.067"-16 2.175"-27
5.450"-14 5.4?8"-27
5.998"-12 1.597"-26
2.178"-11 2.261"-26
7s
5F
7P
6D
8S
6F
8P
::g;;"r;E
Formulas
::g:*:;;
COLLISIONAL
:;Jg$":;;
$:;g"ir;g
;:jg.:;g
TRANSITION
PROBABILITIES-POTASSIUM
g:g:.r;g
093"-10 ::6::"-26
9.211"-10 7.5::".26
"-8 Q "-25
::;g
TEo2OOOK
LEVEL
TO:
45
4P
.5S
3D
5P
6s
4F
6P
SD
LEVEL
TO:
7s
5F
7P
6D
ES
6F
BP
7D
9s
4s
4P
6P
50
T O C. FROM C.
:::k%
;:%:-28 7s
T O C. FROM c.
5s -15
5.006
4.794.-26
5F
"-8
See page 2 for Explanation
8.101
6.425,-26
5 369 1:279:-27 7P
"-8
1.361
8.850,-26
5P
65
1.503"-IO 3..568"-27
2.240 1.013"-26
8S
6F
3D -12
a 279 1:442:-27
-12
6D
"-7
3.224 1.588.-
"-7
25
3.609
1.722.-25
of Tables. 11
"-7
4.540
2.035.-25
4F "-9
4.776 1.420"-26
"-9 ::%:"-;ft
BP
"-7
7.312
2.924.-25
:::::"-;: 9s
70
"-7
1.211
4.389.-25
"-6
1.382
4.099.-25
"-6
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional COLLISIONAL
Transition Probabilities from Gryziliski Binary-Encounter Alkali Metal Atoms, T = 1000 “K-8000 “K TRANSITION
TO:
4s
4P
5s
30
LEVEL
TO:
75
5F
?P
bD
4P
5P
3D
5s
5P
T O C. FROM C.
9.401>.-lb
1.463u-12
2.073,~10
2.041~10
2.307
4.203.-29
2.09?.-20
9,030~20
i.100.-27
2.69?.-27
T O C. FROM C.
1.965
7s
5F
r-7
?P
2.009
3.401.-26
r-7
4.5171-26
COLLISIONAL LEVEL
TO:
19
bF 0P 70 9s LEVEL
;:gjJ:r:8
2.504,-10 2.259,-10 5.106,-11
1.490 r-9 1.205 r-9 2.070,~10
TO:
11
2.?54,.-10
75
9.414
TRANSITION
PROBABILITIES-POTASSI
1.1?2.-25
"-9
y.$#
v-g
1.710 1.62b
z9 m-9
bP
5D
bF
0P
70
9s
4F
m-0
1.3?0.-25
r-6
1.954,~25
m-6
2.510
2.089~Q5
::
E8:3
d
7s
bP 3.i5ar-13
4F
7.271
T O C. fROr4 c.
4.014
2.bOO.e:::
See page 2 for Explanation
::%i
3.212~25
.-6
50 1.?3?.-14 ?.3?0.-12
r-a
r-4
7P
I*;;
2.005
7D
bF
3D
5P
5.367
a-5
2.135
m-4
65
Q:W2
5F
9s r-6
6.399..-15
5s
2.502.-11 1.740,-20
m-7
3.222,,-26
TE-4000K 6s
*-5 3.325
T O C. FROM C.
1.822
?D
1.667
7.930
4P
50
r-0
l.b36.-26
0.5001-14
1.624
6.602
0P
1.133
:un
m-0
l.O4lr-2b
6F
w-7
bP
3.204
?.406.-27
60
?P
4F
1.003
5P
3D
::W”
5F
b.b55,-14
FROM
m-7
1.004,~25
5s
:::::g&
0.590
65
65
w-9
as
bD
.-7
6.160.-26
4P
4s
4.904,-
4.320
Formulas
TEs3000K
PROBABILITIES-POTASSIUM
LEVEL
4s
Transition Probabilities in Plasmas
7.095 ,-7 4.641,-26
5.34 5.91
bD 1.433 0.040..-26
a
u-0 m-27
0.64
0.17
bf
m-6
1.551
0.603.-26
m-6
1.022 l.Olb..-25
7
2.555
SD
r-8
3.764 2.46?.-26
m-27 ?D
0P u-b
r-3
bP
4F
1.42?.-25
w-6
3.673
2.080.-25
~-7
9s e-6
4.040 v-b 2.314,.-25
of bibles 12
Atomic Data and Nuclear
Doto Tables, Vol. 19, No. 1, January
1977
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition Probabilities from Gryzi&i Binary-Encou .nter Formu das Alkali Metal Atoms, T = 1000 “K-8000 “K
COLLISIONAL LEVEL
TO:
4s
TO:
5s "-9
6.$gj
.-$
3. 405 11392 :.p;
20 m-0 m-51
7:036."iO 3.500 ;::gof 4.46 0.40 6 1.534 1.321 2.93 2.00 s LEVEL
TRANSITION
4P 3.353
Transition Probabilities in Plasmas
r-9 ;rg m-10 u-10 u-9 "-9 .-IO "-10
PROBABILITIES-POTASSIUM
TE:5000K
5P
3D
65
4F
3.259.-12 6.434.-10
3.003.-12 5.599.-10
6P
1.670 "-4 1,605 "-6 1.620 r-7 1.34 "-7 1.07 a y-7 6.042 u-9 2.679 m-0 k333
58"
fi!J
;'t
3.323
s "-9 "-9
1.754 1.667
s
3.645 044 f * 5:9+46
2.406 2.311
75
5F
7P
60
0s
6F
0P
4s
4P
5s
30
5P
65
4F
1.193.-12 3.159.-29
1.499.-10 1.507.-20
4.362 6.025.-20
7s
5F
7P
"-9
5.430 7,660.-20
"-9
2.431 1.016.-27
6D
m-0
1.047 4.060.-27
8s
"-7
1.599 6.607.-27
COLLISIONAL 4s
4P
TRANSITION 5s
PROBABILITIES-POTASSIUM
"-7
2.763 1.032.-26
TO:
75
5F
7P
65
0s
6D
T O C. FROM C.
T O C. FROM c.
6F
See
4P
5s
7.437.-12 2.016.-29
4.951.-10 1.320.-20
9.635 5.919.-20
7s
5F
7P
lge 2 for Explanation
1.107 2.239.-26
"-6
1.475 2.995.-26
3D "-9
1.170 6.634.-20
"-6 "-6 u-5
:::z
u-3 "-4
:.;pj
"-4 "-5 u-5
5P u-0
4.456
9s
"-6
2.424 5.003.-26
"-6
r-0 r-0
8P
7D 3.260.-13
l.oai 5.404
6s
~-6
1.659
1-5
u-7
2.435
0s
6F
BP
2.967 6.359.-26
"-6
1.626 1.091
9s ;.g:.-g
21298
Z8
g*ggifi 21957 J:$j$
::g "-7 :r:
r-5 u-4
3.420
"-3 6P
m-7
5.619.-27
"-6
4
4F
4.111.-27
2.591 5.460.-26
"-6
50
1.304.-12
1.556.-27
6D
"-7
6:65&O .j.$;;"-lo
3.297 7.144 1.970
1.033
4s
"-7
5.039 1.766.-25
31455"L-9
"-6 "-7 "-7
0.441 1.715.-26
"-6
4F
p;J.-$$
3.114.-12 2.796,.-10 9.225 "-9
1.790 ;.+jq
5.096 1.975.-26
7D
0.490 7.745 LEVEL
5D "-7
TE=dOOOK
5P
3D
9s
"-3
4.610 1.597.-25
TO:
"-7 "-7
::t
6P
T O C. FROM C.
LEVEL
2.757 2.444
r-6 r-5
7D
ap
6F
"-9 "-9
r-5
m-0 "-0
3.394 T O C. FROII C.
50 1.550.-13 2.610.-11 1.293 1.706
5D
4.004 r-7 0.6101-27
0.007 1.630.-26
7D 5.370 1.269.-25
0.012.:;: 3.946
"-7
9s "-6
5.035 1.401.-25
"-6
of Tables.
13
Atomic
Data
and
Nuclear
Data
Tables,
Vol.
19,
No.
1, January
1977
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition Probabilities from Gryzidski Binary-Encounter Alkali Metal Atoms, T = 1000 “K-8000 “K
COLLISIONAL LEVEL
TO:
LEVEL
TO:
45
TRANSITION
4P
7S
PROBABILITIES-POTASSIUM
5s
5F
3D
2.796.-11
1.180
2.547.-29
1.187.-28
7s T O C. FROM C.
::t%,:26
1 353 i:881.-26
1.717
u-6
1 770 2:505,:26
LEVEL FROM
45
TO:
45
TO:
75
1.976,-11
4s T O c. FROt4 C.
7.645,-11 7.328x.-29
T O C. FROM C.
1.239 n.-6 1.241,,-26
7s
See page 2 for Explanation
r-8
5.218,,-28
4P
-6
TRANSITION
5F
7P
2.529,-11
4P
5s
2.286 u-9 1.074,-2A
2.668 ,.-a 4.657~-28
5F 1.575 1.608.-26
65
2.030 2.134.-26
6,934
1.356,-27
4F
6P
5D
6.12;
u-3
3:t22 1.366
::I m-6
9,997
m-7
6D
8s 3.004 m-6 4.530,.-26
3.539u-27
6D
8s
5.624,-12
3.141 5.208,-28 3.162 3.567.-26
.-7
3.308
3.414
m-6
4.470
u-7
4.816*-27
6F
5.246
1.376,-26
70
8P
5.256.-26
r-7
7.336.-27
u-6
5.987
9s
r-6
6.468
7.247.-26
1.038r-25
1.144.-25
4F
6P
5D
m-6
TEt8OOOK
5P
65
6F
8P
1.062,.-11
7D
9.833,.-12
9s
2.343.-12
2.298.-12
7D 6.477 ,,-6 8,674,.-26
9s 6.974 9,545.-26
5P m-8
9.7 1.1
a-6
3.356 3.028.-26
6D ..-6
2.321
PROBABILITIES-POTASSIUM
2.895,-12
6P
6s
r-8
2 823 "-6 41216 m-26
30
7P a-6
5P
m-8
3D
5s
1.792,-11
2.048 5.841.-28
7P
COLLJSIONAL LEVEL
TEs7000K
5P
3D
u-9
5F -6
Formulas
7P
4P T O C. FROM C.
Transition Probabilities in Plasmas
9 m-8 6 9,-27 8S
6F m-6
3.790 4.433,-26
r-6
8P 4.900 6.005.-26
"-6
.-6
of Tables.
14
Afomic Dab and Nuclear Data Tables, Vol. 19, No. 1, Janwry
1977
Transition Probabilities in Plasmas
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition Probabilities from Gryziriski Binary-Encounter Alkali Metal Atoms, T = 1000 “K-8000 “K TRANSITION
COLLISIONAL LEVEL
TO:
6P
6S
TE=lOOOK
PROBAEILITIES-CESIUtl 7P
7s
5D
Formulas
8S
6D
2.220"-25
2.024,-15
LEVEL FROM
TO:
3.752"-25 7.314..-17
:P 7P .5g
::m:::z 1.046 ;.p;
4F 8P
3.683 1.823
;ii 5G 9P
C. C.
T O C. FROM C.
"-9 y-9 "-7 "-7 "-4
6.05: 7.586 1.148
-6 z-6 "-6
6.056
u-4
::"1g ;.$t32
:I2 "-6 "-7 "-6 "-7
11s LEVEL
T O C. FROM C. T O C. FROM c.
3.6 6,la;4"-26 lu-18
5.743.3.d; 9.917.-27
;.073r-18 1.878.-26
0.049.-27 4.512.-19
a: :oqm
?%--:$ 1:221::10
k)92::14
9:tfkif 3.094.-11 1.184",d;
8%:::: 1.190.-11 :.448--l
hi;%:: &.:3s"-:f
1'
64,~11
6:853,-11
:* %--10 2:3fi2 ;;;
f:ij;
m 41982
;::+a
=I:
;ii
f;!%i
10s
@h$
;:i
;jfj~i;$
"-7
5.692
u-8
6.266
"-9
::i "-4 u-5
::::j 1.116 2.751
:-'6 "-5 "-5
"9:88 6.759 2.162 1.322
::t "-7 "-5 "-6
1107 "-5 "-5 "-6
2.333 6.115
:I$
S-Q : 71782 5.069 4.76;;
6.265
tee;
'$.$O:
"-6
3.553
"-6
3.353
1.600 3.162
"-7
81328
"-6 "-7
7.355 1.176
"-6
4.434 4.618
2.107 4':x
-
z--6
$:a2869;
50
7s
7P
6D
8S
1.917"-28 l.oll"-28
9.553,-21 4.945"-28
1.740.-18 9.2?9,-20
6.735"-16 2.224"-27
1.616"-13 6.170"-27
5.557"-13 8.085"-27
1.061"-11 1.671.-26
7D
9s
TO:
t : %,-;x
6S
6P
7.193,.-11
3.914,*-10
TO:
9s
7D
9P
50 2.029 9.137"-26
"-9
TRANSITION
6.335 1.459"-25
8D "-9
8.846 1.689"-25
2.476 2.728.-25
7s
7P
5G
9P
8D
10s
6S
6P
5D
7s
7P
6D
2.893"-14 3.347"-28
4.842"-13
1.280.-11
2.787.-10
5.649,.-10
7D
9s
5G
9P
8D
2.146 2.694,-26
m-8
See page 2 for Explanation
6.081 4.839"-26
u-8
7.406 5,445,-26
u-8 $:%,%i
3.999"-27
k%,%
u-8
6.071 4.311"-25
60
7.367,-18 6.951,.-29
1.472"-27
3:217 7.212
::: w-8
11s
6.181
r-5 4F
8P
.413*-11 .806.-26
1.711"-10 3.791"-26
9D "-8
7.301 4.761"-25
11s "-8
1.560 7.309"-25
"-7
TE-2000K
PROBABILITIES-CESIUM
5D
6.228"-28
5
1OP
10s "-9
"-7 "-6 "-7
.-;
6P
4'.fu;"-:~ . u-
9D
.,,y
=:; 3 "-5
-
1OP
65
COLLISIONAL LEVEL
8D
50
1.241 2.517 TO FROM
9P
9s
7D
65 6P
7.744 1.291 pa:;<
5.206"-27 10s :%k,:
8S
4F
1OP
9D
8S
4F
::%,-;:
:::k;:
1OP ;::k;:
11s
8P ::%k;:
9D ::i::,:;:
8P
11s ::%,-;;
of Tables. 15
Atomic Data and Nuclear
Doto Tables, Vol. 19, No. 1, Jmuary
1977
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition Probabilities from Gryziliski Binary-Encounter Alkali Metal Atoms, T = 1000 OK-8000 “K
COLLISIONAL LEVEL
TO:
6S
LEVEL
TO:
7D
6P
2.664"-16 6.132"-29
FRON
TO:
9s
6s
c":
6P
7D
9P
8D
4F
BP
1OP
a 8D
::%":26
9P 2.962 7.014":2a7
TRANSITION
PROBABILITIES-CESIUN
5D
7s
50
9P
10s
83::46:-%67
9D
1OP "-7
1.07 1.93
f:%"-25
1.193 2.121"-25
3 rd
11s "-6
1.872 3.158"-25
"-6
TE=3000K 7P
6P
SD
7s
7P
6.395,.-15 5.521"-29
4.045,-12 2.619"-28
3.641"-11 4.835"-28
3.904"-10 1.128"-27
3.776 3.010"-27
7D
9s
5G
9P
8D
65
hG
50
0s
60
6D
8s
4F
8P
1OP
9D
11s
-
TO:
FROM T O C.
7P
56
::i:$.$
6s
LEVEL
7s
-7 :::$;:
TE=2500K
5D
6.369"-1 5.431.-Z
COLLISIONAL LEVEL
PROGASILITIES-CESIUM
Formulas
5D
6. 48"-13 2. 4 30"-28
7D T O c. FROM C.
TRANSITION
6P
6s T O c. FROM C.
Transition Probabilities in Plasmas
::8:%67
See page 2 for Explanation
32:42%:26
7
$:A$;l&
-
5.923,-26 4.693
"-7
;.;zf.
of Tables. 16
60 "-9
6.397 3.897"-27
8s "-9
::;f::"f,,
4F "-8
1OP
108 ,:i:
2.322 7.775"-27
-7
1.606"-25 1.510
2.639 8.3701-27
BP r-8
9D "-6
11:759".25 667
tj.g$; . 11s
"-6
$:'bio%t
-- -;"6
J. KUNC
TABLE
I. Collisional
TO:
65
TRANSITION
6P
PROBABILITIES-CESIUM
5D
7s
LEVEL
TO: 6s 6P
7D
9s
l.OOO"-12 2.583"-10
in Plasmas
1.447"3.608,-11
13
4.355"-13 1.063"-10
Formulas
TE=40OOK 7P
9P
BD
1.065"-13 2.544"-11
2.794"-13 6.558,-11
as
6D
"-a
FROM
Probabilities
Transition Probabilities from Gryzidski Binary-Encounter Alkali Metal Atoms. T = 1000 OK-8000 “K
COLLISIONAL LEVEL
Transition
and M. ZGORZELSKI
4F
ap
2.803"-12 8.023"-10
3.451"-13 9.242"-11
5.254 10s 1.932"-13 4.428"-11
1OP
9D
3.487"-14 7.892"-12
1.283.-13
2.946.-14
11s
1.597".10
3.609.-11
2.075"-11
6.530"-12
w
9.076 6s T O C. FROM C.
7P
3.571,.-13 4.653,.-29
6.690"-11
3.358"-10
2.176"-20
2.281
3.989"-20
7D
9.200"-28
5G
"-9
1.461
2.4ibw27
60 m-8
2.258
3.114"-27
as "-8
9P
6.600
6.130"-27
“-5 4F
m-0
7.347
6.509"-27
1OP
COLLISIONAL TO:
6s
1.310 1.063
"-8
8P 1.914
u-6
3,673 1.080"-25
1.306.-26
"-7
IIS “-6
TE=SOOOK
7s
7P
6D
as
4F
8P
1OP
9D
11s
1.521"-12
2.793"-13
1.042"-12 1.025"-10 4.502"-10 2.023 1.920 3.129
"-9 "-8 "-8
2.427"-13 2.363"-11 1.031"-10 6.385"-10 4.261
1.016
"-4
"-9 "-6
4 =: t
2.36
4.345 7.465
PROBABILITIES-CESIUti
5D
FR 9.399 4.94
TRANSITION
6P
1-4
“-8
9D 2.555 1.285,-25
LEVEL
1.005
$.g"-lo
"-9 "-9
6.656
"-5
u-9
6.779,.-10 2.092 "-9
~.~;;"-I0
2:697":1s 7.246,.-10 3:: 8 59:::: 3.400,-10 7.604,.-11 LEVEL FROM
TO: 6S
1.083 2.352
"-8 "-9
7D
9s
5G
9P
6.041,-12
1.028"-12
3.170"-12
7.956"-13
6S
6P
5D
T O C, FROM C.
4.153"-12 4.052"-29
3.349"-10 1.070"-20
1.316 3.406"-28
T O C. FROM C.
3.706 i.208,-26
7D
9s "-7
See page 2 for Explanation
7.017 2.082"-26
56
2.133"-12
7s "-9
6.778 7.774.-28
7P "-9
3.373 2.013"-27
9P
0D
"-8
4.929 2.504"-27 10s
"-7 ::!k;:
::%,:;"6
::%.:;t
of Tables. 17
as
6D
::t::.f;:
m-0
1.261 5.029"-27
4F "-7
1.306 5.398"-27
"-6
3.316 9.914"-26
1OP 3.064 9.093"-26
6.055
"-9
m-9
ap "-7
3.229 1.057"-26
u-6
4.610
"-7
11s
9D
1.438"-25
“-6
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition
Alkali COLLISIONAL LEVEL
TOI
6S
LEVEL
TO:
70
2.166"-ii 3.604,.29
6P
1.001 1.642"-26 "-9
LEVEL FROM
::%.:;i
k;%;i
TO:
6S
TO:
70
6S
6.217,,-11
T O C. FROM C.
7.282,.-11 3.252"-29
6s
T O C. FROM C.
7P
3"-20"-9
8S
::%,:;t
7s
7P
6D
SS
4F
5,970 1.719"-27 r-6
8.407 2.199~27 r-6
1.963 4.230~27 "-7
2.130 4.5441.-27 "-7
6P 2.221 1.465,%1:
10s
BD
9P
3.255~26
k;fi.:;8
TRANSITION
6P
"-6
2.59
1OP
"-6 B "-26
4.92
3.669 7.289"-26
7P
7s
56
9P
50
7s
7P
9P
8D
6D
LA~;,r;~
L285w;;
;:fAf,&
',&9&"6
of Tables. 18
3.948 7.935"-26
4F
IOP
9D
8S
4F
s:a.:;;
6,652 e.522,aj;;
11s
9D "-6
BS
60
5%': 56
8P
'&6U.;;
"-6
5.370 1.143"-25
"-6
TE-7000K
PROBABILITIES-CESIUM
5D
9s
ap
4F
1.425 6.722"-26 r-6
5G
7D
See page 2 for Explanation
6D
IOP
1.766
COLLISIONAL LEVEL
7s
Formulas
TE-6000K
PROBABILITIES-CESIUM
5D 2.9 3,SfB
9s
70 T O C. FROM C.
5D
9P
6s c. FROM T O C.
Probabilities from Gryzifiski Binary-Encounter Metal Atoms, T = 1000 “K-8000 “K
TRANSITION
6P
Transition Probabilities in Plasmas
10s 3.004 4.079"-26
4.171 6.002"-26
11s
ap
53882.:;5
lop "-6
ap
?:%.s3
11s
9D "-6
4.470 6.525"-26
"-6
5.987 9.347"-26
"-6
Transition Probabilities in Plasmas
J. KUNC and M. ZGORZELSKI
TABLE
I. Collisional
Transition Probabilities from Gryziriski Binary-Encounter Alkali Metal Atoms, T = 1000 “K-8000 “K
COLLISIONAL LEVEL FROM
TO:
65
TRANSITION
6P
PROBABILITIES-CESIUH 7s
5D
Formulas
TE=8OOOK 7P
6D
8S
41
1OP
9D
BP
6s
"-8 LEVEL
TO:
9P
7D
6S T O C. FROM C.
1.817,-10 2.96610-29
T O C. FROM C.
8.283 7.354,:;:
7D
See page 2 for Explanation
6P 4.075 1.322.-28
50 m-9
1.102 2.367,-
m-6
1 499 1:373,-26
9s ::%,.-26
7s m-0 20
3.707 5.264,-28
m-6
2 140 2:039,%
7P w-8
6D
1.248 u-7 1.318,.-27
9P
50
an k%,,:26
3.256
1.671 1.676.-27
8S u-7
10s -6
3 356
3:447,-26
3.467 3.177~27 1OP
u-6
::%,t
11s
4F u-7
3.733 3.400.-27 9D
::%,-;f
BP m-7
7.294
6.469.-27
,,-7
11s
::i::.-;i
of Tables. 19
Atomic Dot. and Nuclear Ddo Tobler, Vol. 19, No. I, Jonuory
1977
J. KUNC and M. ZGORZELSKI
TABLE
II. Collisional
Transition Probabilities from Modified Gryzilislci Binary-Encounter Cesium, T = 2000 “K, 5000 “K, and 8000 “K
COLLISIONAL LEVEL
T O C. FROM c.
T O C. FROM c.
To:
TRANSITION
6P
65
Transition Probabilities in Plasmas
TE=ZOOOK
PROBABILITIES-CESIUH
5D
7s
5G
9P
7P
6D
6S
6P
5D
75
?P
6D
1.164"-17 3.410"-20
1.139"-13 1.310"-27
1,?40.-12 2.240"-27
4.101"-11 4.?14"-27
7.705"-IO 1.117"-26
1.523 1.403"-26
70
9s
5G
9P
0D
::;g*:;:
;:::;*:;;
COLLISIONAL LEVEL
TO:
65
LEVEL
TOI
7D
6P
::;1;:.:;:
::tg,:;;
TRANSITION
PROBABILITIES-CESIUM 7s
50
9P
6S T O C. FROM C.
::;
T O C. FROM C.
4.000 1.0?6"-26
::g:.:;;
SD
7D
9s "-7
See page 2 for Explanation
1.030 3.056"-26
I.148 3.373"-26
"-6
1OP
9D
ES "-9
7.674 2.590"-26 1OP
g::g.r;:
1.002 4.005"-25
0P
11s
4F "-9
0.993 2.?65"-26
"-6
1.210 4.355"-25
8P r-9
3.614 5.165"-26
"-6
a.;$; ,
"-0
11s
9D
.-
.;$
Tf=SOOOK 6D
7P
::gf"z;p
1.704 4.905"-26
4F
4F
0s
BP
1OP
g:;
9P
50 "-6
8S
10s
7P
7s ,z;g
t 57::::
Formulas
6D
3 ;,r;$f
10s
all "-6
1.919 5.513"-26
of Tables.
20
:::l:"$
"-6
2.794 0.006"-26
1OP "-6
3.926 1.165"-25
11s
9D "-6
4.210 1.261"-25
"-6
5.700 1.775"-25
"-6
Transition Probabilities in Plasmas
J. KUNC and M. ZGORZELSKI
TABLE
II. Collisional
Transition Probabilities from Modified Gryziriski Binary-Encounter Cesium, T = 2000 “K, 5000 “K, and 8000 “K
COLLISIONAL LEVEL
TO:
65
LEVEL
TO:
70
6s T O c. FROM C.
4.658,s-10 7.604,-29
T O C. FROM C.
1.122 m-6 9.962,.-27
70
See page 2 for Explanation
TRANSITION
6P
PROBABILITIES-CESIUM
50
TE=BOOOK
7s
7P
60
BS
9P
6P 8.605 2.790"-28
50
Formulas
4F
BP
1OP
z7s
7P
6D
8S
4F
8P
m-9
9s ::%.~;~
#%,$
8:fti.:;$ 5G
1.923 1.760.-26
::!::":27
9P "-6
2 657 2:532”:;:
80 %:8,-$
of Tables.
21
-7
2 621 2:629"-27 10s ::;::.:;f
"-7
5 091 4:664"f;: 1OP ::i:;.:;:
::d:;,:;: 9D ::!::.:,g
::t::,:;: 11s ;:fjfm:;: