Spectral Line Broadening by Plasmas

A L a . HYDROGEN

T = 5,000 K NA = 2 NB = 5

a\L0G(W ) 14 15 16 17

01 ·· 0 0 Ε - 0 2 5.267E 00 4.187E 00 3.753Ε 00 3.997Ε 00
2.00E-02 4.239E 00 3.788E 00 3.529Ε 00 3.765Ε 00
3.00E-02 3.217E 00 3.183E 00 3.135E 00 3.374Ε 00
4.00E-02 2.797E 00 2.814E 00 2.840Ε 00 3.077Ε 00
5.00E-02 2.649E 00 2.633E 00 2.655Ε 00 2.863Ε 00
6.00E-02 2.587E 00 2.528E 00 2.521E 00 2.674Ε 00
7.00E-02 2.521E 00 2.431E 0 ) 2.394Ε 00 2.485Ε 00
8.00E-02 2.423E 00 2.318E 0) 2.259Ε 00 2.292Ε 00
2.299E 00 2·18ί>Ε 00 2.112E 00 2.101E 00
9·00Ε-02 2.036E 00 1.956E 00 1.915E 00
l.OOE-01 2.149E 00 1.875E 00 1·798Ε 00 1.739E 00
1.20E-01 1.969E 00 1.554E 00 1·493Ε 00 1.421E 00
1.40E-01 1.618E 00 1 . 2 6 1 E OJ 1.222E 00 1.154E 00
1.70E-01 1.285E 00 9.127E--01 9.020Ε--01 8.468Ε--01
2.00E-01 8.996E--01 6.644Ε--01 6.722Ε--01 6 . 2 8 8 Ε -■01
2.50E-01 4.162E--01 4.340Ε--01 4.052E-01
3.00E-01 6 . 2 7 3 E ·- 0 1 2.794Ε--01 2 . 9 8 1 E ·- 0 1 2.790Ε--01
3.754E--01 1.981E--01 2.153E--01
3.50E-01 2.441E-01

1.690E«- 0 1

Τ = 10,000 Κ ΝΑ = 2 ΝΒ = 5
15
a\LOG(N) 14 16 17

0. 5.827Ε 00 4.417E 00 3.676Ε 00 3.521E 00
4.305Ε 00 3.881E 00 3.441E 00 3.351E 00
1.00E-02 3.134E 00 3.022Ε 00 3.032Ε 00
2.00Ε-02 2.720Ε 00 3 . 1 4 5 E Ου 2.713E 00 2.771E 00
2.585Ε 00 2.742Ε 00 2.533Ε 00 2.594Ε 00
3.00Ε-02 2.547Ε 00 2.566Ε 00 2.420Ε 00 2.461E 00
4.00Ε-02 2.508Ε 00 2.481E 00 2.324Ε 00 2.337Ε 00
5.00Ε-02 2.434Ε 00 2.410E 00 2.220Ε 00 2.208Ε 00
6.00Ε-02 2·334Ε 00 2 . 3 2 3 Ε QJ 2.103E 00 2·069Ε 00
7.00Ε-02 2.206Ε 00 2.213E 00 1.972E 00 1.924E 00
2·023Ε 00 2.080Ε 00 1.831E 00 1.775E 00
8.00Ε-02 1·675Ε 00 1.927E 00 1.544E 00 1.487E 00
9.00Ε-02 1.323E 00 1.609E 00 1.275E 00 1.229E 00
l.OOE-01 9.169E-01 9.456Ε--01 9.180E-01
1.20E-01 6.265Ε--01 1.305E 00 7.037Ε--01 6.915E-01
1.40E-01 3.667E-01 9 · 3 7 7 Ε ·- 0 1 4.511E--01 4.517E-01
1·70Ε-01 6·728Ε--01 3.073Ε--01 3.127E-01
2.Q0E-01 2.344Ε--01 4.131E--01 2·202Ε--01
1.602E--01 2.730Ε--01
2.50E-01 1.912E-01
3.00E-01

3.50E-01

Τ - 20,000 Κ NA = 2 NB = 5 16 17

a\LOG(N) 14 15 3.760E 00 3.283E 00
3.477E 00 3.135E 00
0. 6.583E 00 4.775E 00 2.992E 00 2.845E 00
1.00E-02 4.308E 00 4.013E 00 2.651E 00 2·597Ε 00
2.00Ε-02 3.047E 00 3.117E 00 2.467E 00 2·430Ε 00
3.00Ε-02 2.660E 00 2.688E 00 2.366E 00 2.316E 00
4.00Ε-02 2.533E 00 2.518E 00 2.290E 00 2.222E 00
5.00Ε-02 2.516E 00 2 . 4 5 2 E OJ 2.209E 00 2.126E 00
6.00Ε-02 2.500E 00 2.404E 00 2.113E 00 2.021E 00
7.00Ε-02 2.446E 00 2.337E 00 1.998E 00 1.906E 00
8.00Ε-02 2.369E 00 2.248E 00 1.868E 00 1.782E 00
9.00Ε-02 2.263E 00 2.129E 00 1.590E 00 1.526E 00
l.OOE-01 2.069E 00 1.979E 00 1.318E 00 1.281E 00
1.20E-01 1.724E 00 1.660E 00 9.747E--01 9.719E-01
1.40E-01 1.353E 00 1.342E 00 7.194E-01 7.380E-01
1.70E-01 9.275E--01 9.537E--01 4.545E--01 4.839E-01
2.00E-01 6.209E--01 6.721E--01 3.059E--01 3.344E-01
2.50E-01 3.560E--01 4.038E--Oi 2 . 1 7 0 E ·- 0 1
3.00E-01 2.242E-01 2.626E--01
3.50E-01 1.515E--01 1.817E--01

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A l . a . HYDROGEN 295

T - 10,000 K MA = 2 NB = 6

a\ LOG(N) 13 14 15 16 17

01 ·· 0 0 Ε - 0 2 1.550E 00 1.777E 0 ) 1.845E 00 1.853E 00 2.069E 00
2.00E-02 1.882E 00 1.925E 0 ) 1.905E 00 1.880E 00 2.104E 00
3.00E-02 2.382E 00 2.196E 00 2.025E 00 1.938E 00 2.171E 00
4.00E-02 2.667E 00 2.382E 00 2.120E 00 1.984E 00 2.210E 00
2.748E 00 2.440E 00 2.152E 00 1.994E 00 2.200E 00
5.00E-O2 2.672E 00 2.125E 00 1·969Ε 00 2.148E 00
2.474E 00 2.392E 00 2.057E 00 1.916E 00 2.067E 00
6.00E-02 2.295E 00 1.969E 00 1.847E 00 1·971Ε 00
7.00E-02 2.146E 00 2 . 2 7 9 E OJ 1.873E 00 1.769E 00 1.869E 00
8.00E-02 1.847E 00 2.150E 00 1.679E 00 1.604E 00 1.661E 00
l.OOE-01 1.560E 00 2.022E 00 1.456E 00 1.402E 00 1.415E 00
1.339E 00 1.777E 00 1.257E 00 1.215E 00 1·197Ε 00
1.25E-01 1.175E 00 1.518E 00 1.075E 00 1.044E 00 1.006E 00
1.50E-01 9.196E-01 1·303Ε 00 9.064E--01 8.885E--01 8.414E-01
1.75E-01 5.735E--01 6.772E--01 6.352E--01 5.878Ε--01
2.00E-01 3.661E--01 1 . 1 0 5 E oo 4.405E--01 4.586E--01 4.195E--01
2.50E-01 1.Ü08E-01
3.00E-01 9.160E--01
5.00E-01 4.346E--02 6.039E--01
4.034E--01
7.00E-01 1.211E-01

T = 20,000 K NA = 2 NB :: 6

α\ LOG(N) 13 14 15 16 17
1.830E 00
0. 1.397E 00 1.671E 00 1.787E 00 1.775E 00 1·853Ε 00
1.824E 00 1.867E 00 1.807E 00 1.901E 00
1.00Ε-02 2.411E 00 1.872E 00 2.030Ε 00 1.876E 00 1.938E 00
2.00E-02 2·731Ε 00 2.221E 00 2.159E 00 1.935E 00 1.946E 00
3.00E-02 2.835E 00 2.455E 00 2.209Ε 00 1.958E 00 1.922E 00
4.00E-02 2 . 7 6 4 E OC 2.533E 00 2·185Ε 00 1.942E 00 1.873E 00
5.00E-02 2.519E 00 2.482E 00 2.11 IE 00 1.896E 00 1.808E 00
6.00E-02 2.325E 00 2.346E 00 2.014E 00 1.831E 00 1.734E 00
7.00E-02 2.178E 00 2.200E 00 1.910E 00 1.757E 00 1.577E 00
8.00E-02 1.861E 00 2.062E 00 1.705E 00 1.598E 00 1.384E 00
l.OOE-01 1.572E 00 1.801E 00 1.479E 00 1.407E 00 1·204Ε 00
1.25E-01 1.359E 00 1.606E 00 1.282E 00 1.231E 00 1.037E 00
1.50E-01 1.165E 00 1.327E 00 Î.IOOE 00 1.066E 00 8.867Ε--01
1.75E-01 9.312E·-01 1 . 1 3 1 E OJ 9.264Ε--01 9.125E--01 6.402Ε--01
2.00E-01 5.70ÜE--01 9.326E-01 6.349Ε--01 6.546E-01 4.662Ε--01
2.50E-01 3.582E--01 6.028E--01 4.372Ε--01 4.710E--01
3.00E-01 3.94i>E--01
5.00E-01 9.525E-02 1.135E--01
7.00E-01 4.Ü36E--02

T - 30,000 K NA = 2 NB = 6
14
<x\ LOG(N) 13 15 16

0. 1.308E 00 1.606E 00 1.753E 00 1.748E 00
1.00E-02 1.796E 00 1.843E 00 1.849E 00 1·784Ε 00
2.00E-02 2.430E 00 2 . 2 4 1 E OJ 2.042Ε 00 1.862E 00
2·767Ε 00 2·193Ε 00 1.931E 00
3.00E-02 2.882E 00 2.500E 00 2.254Ε 00 1.962E 00
4.00E-02 2.818E 00 2.590E 00 2.230Ε 00 1.950E 00
5.00E-02 2.541E 00 2.537E 00 2.149E 00 1.905E 00
6.00E-02 2.338E 00 2.384E 00 2.045Ε 00 1.839E 00
7.00E-02 2.196E 00 1.935E 00 1.764E 00
8.00E-02 1.868E 00 2.227E 00 1.722E 00 1.604E 00
l.OOE-01 1.577E 00 2.085E 00 1.492E 00 1.415E 00
1.25E-01 1.369E 00 1.813E 00 1.296E 00 1.241E 00
1.50E-01 1.180E 00 1.548E 00 1.113E 00 1.078E 00
1.75E-01 9.352E--01 1.340E 00 9.364Ε--01 9.240Ε·-01
2.00E-01 5.670E--01 1.144E 00 6.356Ε--01 6·617Ε-01
2.50E-01 3.537E«-01 9.404E--01 4.330E-01 4.739Ε·-01
3.00E-01 6.006E·-01
5.00E-01 9.238E-02 3.887E·-01
3.883E--02
7.00E-01 1.093E--o;

296 APPENDIX I. STARK PROFILES

T - 40,000 K NA = 2 NB =: 6 15 16
a\LOG(N) 13
01·. 0 0 E - 0 2 14 1.728E 00 1.732E 00
2·00Ε-02 1·837Ε 00 1.772E 00
3.00E-02 1.246E 00 1.558E 00 2.053Ε CO 1.859E 00
4.00E-02 1.780E 00 1·823Ε 00 2.220Ε 00 1.936E 00
5.00E-02 2.443Ε 00 2.256Ε θο 2.288Ε 00 1.971E 00
6.00E-02 2.790Ε 00 2.532Ε 00 2.264Ε 00 1·962Ε 00
7.00E-02 2.913E 00 2.630Ε 00 2.177E 00 1.917E 00
8.00E-02 2.856Ε 00 2.532Ε 00 2.067Ε 00 1·850Ε 00
1.00E-01 2.554Ε 00 2.409Ε 00 1.953E 00 1.773E 00
1.25E-01 2·345Ε 00 2.244Ε 0 ) 1.733E 00 1 .61 IE 00
1.50E-01 2.208Ε 00 2.100E 00 1.501E 00 1.421E 00
1.75E-01 1.872E 00 1.821E 0 0 1.306E 00 1.249E 00
2.00E-01 1.581E 00 1.554E 0 0 1.122E 00 1.086E 00
2.50E-01 1.374E 00 1.348E 00 9.428Ε·- 0 1 9.315E--01
3.00E-01 1.191E 00 1.154E 00 6.730Ε-- 0 1 6.653Ε-- 0 1
5·00Ε-01 9.369E-01 9.450Ε--01 4.295Ε--01 4.745Ε--01
7.Ü0E-01 5.646Ε-- 0 1 5.986Ε-- 0 1
3.506Ε-- 0 1 3.845Ε-- 0 .
9.057Ε--02 1.065E-01
3.789Ε-02

Al.b. IONIZED HELIUM

The following profile does not include inelastic collisions.

T=5000 K N^ = 1 NR = ;

α \ 1_ΟΠ(Ν) 14 Ie
O.OOr>F n 4·Λ^«=;Ε e; ?.e77F
?,^^F
? , O n O F - 7 I . P O f l F «ς p.py-rr

^•OOOF-7 T.?4.?F S ?.oeoF

4 . 0 n O E - 7 P . f t ^ l F «S l.RRRF
1 .*ROc-
S . 0 0 0 E - 7 ? . 1 1 R F «S 1 .416E
6 . 0 0 0 E - 7 1.71 IF S 1 .'ïe^cr
f^COP
7.COOF-7 1.?A4P 5
ι,ηρορ
1.noOF-ft P.OPAF 4 1«oopp
1 . 1*^F
ι ·*·οορ-* -i.OOOF 4 R.l^OF
^.onnr-ft P.^^7P· 4 ^•^l^F
3.000F-6 l.llOF 4 4.-*?r>F
4.5» Ì O F
4.000E-f> 6.*R2F 3 •>,9^ûC
^4.<SP^F ?.?1ûF
«5.000Ε-6
7.S00F-6 -*. 1 1 IF 3 U?0]F
i,οοηρ-β -».^??ε 3 4 · * 1 RF
2«000F-e; ?.19?F
3#ηηπρ-β; *».P°^E 3
^•?«ÎC 3
4»O^OF-^ ?.41BF 3

ei.o^Pr-R l.^?7F 3
4#e^BF 3
T.f.OOE-^ ?.0*6F
1 .000E-4 2

A l . b . IONIZED HELIUM 297

TslO,000°K

« \ L O n ( N ) 14 Ie» 16 17 18 19
O.CCOF 0 S . 6 7 IF 5 3.07QE 5 1.724F 1 . O l IF e> 6.324F
R 2.041P 5 1 . 0 0 2 Γ c; 6.306F 4 4. 141E 4
P.OOOF-7 4.4 13F «=; 1 . 6 8 ^ F 5 6.283F 4
3.Π0ηρ-7 1 « 4 M F S 2.591E c; 6.7«1F 4 4.137F 4
4 .OO^P-T ? . 6 4 o r 5 2.-Ό7Ρ 5 1.629F e=; 6.211e" 4
5.000F-7 2.0-*r>F «i 1 . ^ 6 ? F Q.017F 4 6.163F 4 4·132E 4
6.000F-7 1.5^1F s 2.022F 5 6.076F 4 4.126F 4
7.«00E-7 1.133F s - 1.757F 5 1«4fì4F S 0.7-^F Λ ^.896E 4
s 1.415F e; 1 .-<9QF 5 5.441F 4
1.00OE-6 6.9^5F 5 1.P65F 5 9.508F 4 4.918F 4 4.117c 4
4 9.<->76F 4 1 ,MRF 4 O.390F Δ 3.8R«=iF 4 4.106F 4
1.500E-6 3. 3e;3F 4 4 4.D87F 4
2.0DOF-6 1.951F 4 5.430E 4 7.060F 4 0 .O 31F 4 3.043F 4 4.046E 4
3.onOF-6 o.n^ô^ 4 3.333P 4 4.0.6RF 4 2.410F 4
4.000E-6 5.4 37F 4 p.344F 4 1.520F 4
"*. 1 . 6 1 5 F 4 2.62^P 3 1»096F 4
5.00OF-6 3.794F 3 6.P66E 4 5.196E 3 3.Q34E 4
7.500E-6 ? . P ^ 2 F 3 9.71RF 3 1.641F 3 2.967E 3 3·788F 4
1.000E-5 2 . 5 4 2 F 3 6.731F 3 1.15ΠΡ 3 «.518F 4 1.920F 3
2.C00E-5 3.6P4E 3 4.08SF 3 6.657F 3 1.2?OF T
3 3.558F 3 5.243F 3 -*.«--8 2 F 4 2 3.4 3PF 4
3.000E-5 3.176E 3 3.955F 3 4.333E 2 4.7-M^ 2
2 î>.4^6E 4 2.368F 3.046F 4
4.P00F-5 2.600F 3 3.263E 3 • 3.223F 2.675F 4
5.O0^E-e> 1 · ? 0 7 C 1,7PQF 4 1.932F 4
7·5θθ£-β 4.f">«0F 3 2.4 06E 3 2.282E 1.442E 4
l.OOOE-4 2 . 0 1 4 F T 1.403F 3 1 .-»5QF 1.049F 4 5.814F 3
? 4.09PF
? A.044F. 7.74 1 E 3
2 2.74 2F 4.749F 3
2 2.290F
3.117E 3 2.906F 3
2·106Ε "X
1.280F 1.862F 3
4.7P7F -* 1.306F 3
*^.4 12F ?
?

2.340E 2 2.607F 2

Τ=20,000 K Ν Λ = 1 NJ« = ?

θ \ L^>r, (Ν') 14 1« 16 17 18 19
0.'"-OE 0 7 . ^ 6 1 F 2.046F
2.r^CE-7 4·895F «S ^" » • 7 5 P F 1.974F c; 1 . 1 5 4 E «ή 6.Θ68Ε 4 4.404E 4
5 1.P90F 1 · 14 1E5
3.34ÇE 5 1.784F 5 6.842E 4 4·398E 4
1.f 6 4 F 5 1 · 1 2 5 F «Λ
■»,Ρί^Τ-7 7,^-ÌQF 5 2.'333F 5 1 .-^«p 5 1·104F 5 6.81 IF 4 4 · 3 9 2 E 4
c; 2#*05F 5 1. n5HF 5
4,nn."F-7 P.^F ?.1Ι"Γ C 1.0 77E 5 6»768F 4 4.382E 4
c.r.^OF-7 S 1.760F 5 1.O6BF c 1.H47F c
fr.-.n-,r_7 1."76^ c; e; 6.708F 6.713F 4 4.370E 4
7.T>r.cr_7 1 ·41PP 1 ."»64F 4.4 30F 5 o.^>5lF 4 6.64 7F 4 4.355E 4
o.70ir 4 5 4
2.783F 4 R.Q9SF 4 6.530F 4 4.328F 4
1. "?97F 4 7.Π67Ε 4
1 , ^ ' Ύ - ί ! ^ , " . 7 1 F ,, 4 O . 1 T i r 4 9.6e8F 4 C..452E 4 6.2O0F 4 4.271 E 4
«#r:n-».p 7
1 . ^ ^ F - ô 2.748F 4 4.710F 4 4.-»65F 3.339E 4 5.697E 4 4 . 1 1 7E 4
4.^46p 3
?«C^:ÌE-6 1.584F 4 2.322F 4 3 2 . 2 1 OF 4 5·040Ε 4 3.921E 4
3.286E 3 1 .^81 F 4
3··'· ."?F-ft 7.328F 3 1.3 39E 4 2.448E 3 8.037F T 3.818F 4 3.460E 4
4.-».3?F 1.479F 3 6.<^rr9F 3
4."'->">F-6 ?,^-'Pf 3 7.'~>3c;.F 3 5.757F 3 4.487E 3 2.887F 4 2.986F 4
5.~^F-6 ?#170Γ 2 3.255E 3
-*3 * . /» 9 0 F 2.464F 2 2.329E 3 2.234F 4 2.«57E 4
7.<^">F-6 P.1O0F
l .Γ.··^Ε-5 3.369F -? 3.-»/r'6«=- 3 1.429E 3 1.348F 4 1·766F 4
7.0'"VF-^ c . 2 1 7F 2
*». 7 . 0 R O F 3 2.537F 2 *»O . 5 0 7 F 1.294F 4

3 3.69RC- 3 5.031F 3 5·736E 3

3.r0~E-5 3.122E 3 3.266E 3 3.226E 3 3.264E 3

4 . 0 C 0 E - 5 2.7-Î8F 3 2.'r.37E 3 2.174E 3 2.097E 3

5 . ' ; - " E - 5 1 .4 3 4 F 3 1 .I7«=;r T 1.376E 3 1·386E 3

7.*w";F-e* 4 «4 3PP 2 c.OOOF 2 «.266F 2 5.656F 2
1 ..~^'^-4 Î.H76F 2 ?·31PF ?
2.661E 2 2.908E 2

TsHO.OOO K Ν Λ = l ΝΡ = 2
Lor, (M)
I«- c; 16 5 17 «cz- 18 4 IQ 4
5,^ΟΟΕ-7 Λ.ΜΡΡ 2,4 77F 5 1.3«4F «- 7.713F 4 4.688F 4
5.00-Ρ.7 S ?.^OF R 1.333F 7.6"~5F 4 4.681 E 4
7·^°Ρ-7 3.O01F S 2.P08F 1.307F «=i 4 4.672F 4
3,248F 5 Ρ.Π36Ε 5 1.273F 7.629F 4 4·659F 4
1 .f.O^F-Λ 2,632F 5 1 .P51F •5 1.232F 5 7.565F 4 4
3·"°·>Ε-6 2 . 1 16«~ S 1.666F S 7.485E 4 4 . 6 4 3E 4
4.OO~F-6 1.70PF s 1.40RF «=i 1·18SF «Λ 4 4
5.000Ε-6 1.260F 4 1 ,ftS^ «S 1·107E e; 7.390F 4 4.623E 4
7.-^~'F-6 4 6.l6^F 4 0#7n?F 7.220F 4 4·588F 4
1 .OO^r-s P.^l^ 4 3.O10F 4 7.17QF 4 6.879«" 4 4 . 51 3F 4
T.07CF 4 1.Q4 2F 4 5.279F ix 4 4
4.00r*F-«=Ì 2.338F 1·169F 4 3 . 0 4 1F 4 6.Π67Ε 4 4.313F 4
1.094F 3 8.010F 3 4 5.214E 4 4.064F 4
7.5^CE-5 6.493F 3 4.«"48F 3 1.Q47F 4 3.747F 3 3.497E 4
1.OCCE-4 4.466E 3 3.663F 3 1·366E 4 2.723F 3 2.942F 3
?.761 F 3 3.780F 3 7.553F 3 2.049E 3 2.463E 3
2.542F 3 3.-*04F 3 es.e=:52F 3 1·189F 3 1.635E 3
3.47QF 3 ?.^6"^F 3 4.193F 3 8.380F 3 3
3.233F 3 1.^60F 3 3.307F 3 4.751F 2 1·178E 2
3 5.481F 2 3 3.326F 2 5.519F 2
2.6«=Î3F 2 2.«"21F 2 2.495F 3 2.369F 3.429E
1.515F ? 1 .549F ? 2.290F
5.094E 5.573E ? 1.512E 1.509E
2.259F 2.648E 5.702E 6.108E
2.834E 3.166E

T*80,000 K 15 16 5 17 18 4 IO
3.004E 5 1 . 6 0 1 E e; 8.789E 4
a \ LOG(N) 5 . 7 4 3F 5 2.782F 5 4 5.074E 4
O.OOOE 0 4.443F 5 2.*47E 5 1·566E 5 8.732E 4
2.000E-7 3 . 4 6 3 E c; 2.P77F «5 1.524F 8.662F 4 5.064F 4
3.000F-7 2 . 6 4 7 F ts, 2.00«"F 1.460F 4 5.052E 4
4.or^F-7 2 . 0 3 1 F e; 1.749F 5 ««=. P . 5 6 6 F 4 «"•0 35F 4
5.000F-7 1.582F 5 1.417F 5 1,404F 4 ^•013F 4
6.000E-7 1.124F S 1.005E 5 c; A . 4 4 6 F 4 4.987F 4
7.500E-7 6.925E 4 5.505F 4 1·332E 4 4.939F 4
1.00ÛE-6 3.312F 4 3.385F 4 1.218F «= P . 3 0 4 F 4 4.839E 4
1.500E-6 1.924F 4 1.636F 4 4 4.577E 4
2.000E-6 8.919F 3 9.745F 7 e P.054F 4 4.256E 4
3.O00F-6 ^.29pr 3 6.646F 4 3.^57E 4
4.0ΟΠΕ-6 3 1.027E 5 7.565E 3 2 . 9 1 OF 4
5.000F-6 3.646F 3 3.79«~F 3 3 2.379F 4
7.500F-6 2.-»l IF 3 3.123F 3 7.112E 4 6.450E 3 1 . 5 1 9F 4
1 .Ο0ΓΕ-5 2.220F 3 3.«56F 3 3 1.076E 4
2.000E-5 3.293F 3 3·299E 3 4.986F 4 5.356F 3 5.237E 3
3.00ÜE-5 2.646F 3 2 3.485E 3
4.000E-5 3.178F 3 1.607F 3 2.721F 4 3.635F 2 2.442E 3
5.00^F-5 2.777F 3 5.«82F 1 1.627F 3
7.50ΠΕ-5 1 .«S 3 3 F 3 2 1.696F 4 2.54HF 6.^07F 2
1.oÒ^r-4 2.K?7F 2 3.327F ?
2.00r>«~-4 4.Q«"2F p 3,371F 1 1.172F 4 î.863F
3.000E-4 2.132F 2 1.141F 1
2.218F 1 6.397F 3 1.047F
7.412E n 4.734F 3 7.322F

3.922F 3 4.453E

3.323E 3 3.359E

2 . 6 1 5f 3 2 . 5 2 5 F

1.639F 7 1.626F

«Î.819F 2 6.029E
2.706er 2
4 . 3 1 2Γ 1 2.O30F
5.1P6F

1 .^29f 1

Τ*1βΟ,000 K 16 17 18 P
3.622F 1 . 8 P 8 F c; 5·558F
a \ LOft(N) 3.245F 5 1 .831 h 5 1.006F 5 5.b45E 4
0.000F O 2.P71F 5 1.764F 5 9.969E 4 5.^28F 4
2.000E-7 5 1 . 6 7 8 E c; 4
3.00^F-7 2.473F 5 1 . e 7 0 F c; Ο.Ρ64Γ 4 -••505E 4
4.ΠΟΓΕ-7 p#n09F 1.473F •".47SF 4
5.00OF-7 1,771F 5 9,719E 4 5 . 4 3QF 4
6.^O0E-7 1 ,376e· 5 «=1 . 3 1 I F «-.37c-,p 4
7#«oOP-7 «1 . 0 6 0 E c O,540F 4 4
1.000E-6 Q.P96F <- 5 . 2 4 0F 4
1.^00F-6 4.Ρ3«^ 6.864F 4 9,->30F 4 4.892F 4
2.O00F-6 4 4 . 4 78E
3.00OF-6 2.O04P 4 4.61 IF 4 P,967F 4 3.620F 4
4.000F-6 4 4
K#onr>F-6 1,377F 2.407f 4 8.272F 4 2.873F
7.c0^F-6 R.^^F 4 1 .471F 4 6.779F 4 2.29?P 4
1 .OnOer_c^ e^.«5-'F 3 1 .<">06F 4 1 .AOpc- 4
?,OOOF-5 3.P1Pr 3 «.ZlfnF 7 5.4 22F 4 9,PP1«~ 3
3.000F-5 3 7
4.00Or-« 2.713P 3 4 . 0 8 5 Γ -5 3.47C.I- 4 4.944F 3
5.0O0F-5 3 3
7.«0'NF-* 3,378F 3 3 . 68Of 1 P.344F 4 3.492F 3
1 .OOOF-4 3.277F 3 3 . 3 2 4 F •î 2·^66F 2
2.712F 3 1.6P?^ 4 1·720F P
3.OO^F-4 1,629F 2 2.699F 3 6.P04F
5.«76F 2 1.700Γ 7 0,?Mf 3 3.4 12F
Ρ.ΔΡΡΡ 1 5.o7?F ?
3,o66r 1 2.7-»ir ? 6.425F 3
1 ,^3r>er 4.1«1F 1
1.44PF 1 4.178Γ 3
3.364F
2.6*0F 3
1 . 7 1 6r- 3
7

6.260^ 2

2.976»* 2
<~,^P6r" 1

Τ=5,000 Κ ΝΔ = 1 MR = 3 T*5t000°K NA = 1 MR = 3

>M 1 4 1* β \ t_<">0, ^' ) 14 1*

O.OOOcr r> - % 2 * 6 = - r> 1 ,/|^AF T 7.500F-6 2.3R7F 7 -UlROF 7
7,?7?C p 1 .4^AF 7 7 4 . I9pc- 3
P.O^^F-7 1 .0O0F-* 7.4?Rc- 7 7
7.000F-7 T.poctp o 1 ,ΛΟΟΡ 3 2 .fl^^e-6! 6.H7/SF "X 7.1P-»F 7
4.000F-7 7 7
R.OOOF-7 7 . 7 ? « ^ 2 1 . 4 1 1F 3 T.OOOF-R 7# 140Γ 7 7,??1Γ 3
ft.OOOF-7 4.000F-* 6.2<37F 6.076^ 3
7.^00F-7 7.767F p i . 4 1«=;F 3 3 4.Q4RF 3
1.Oonr-Λ ">7 . 4 ^ « F S.OOOF-^ ei.pjcc- 3 2.3^3E
1 .42PF 3 2 1.377F 2
1.«ΟΡΓ-Λ ?#-»POF
?#0O0p-6 7#4r>7F ? 1.4?OP 7 7.^ηηΕ-«η 2.460F 1 R.16RF 1
7.C0CF-6 1 ->,Of|F 1
4.0O0F-6 7 , f 7 r F r» 1 . 4 4 0 F "* 1.000F-4 1.427F 1 1
5.000Ç-6 ?#Aeç^p·
P . 1 ΛΟΓ- r> 1 # e r > ^ r 7 2.000F-4 2.3T7F

n,77<=F ? 1 . « 7 P F 7 3 . 0 0 0 F - 4 7.«OOF

-> ">] # ^ 4 2 F 4.00θΓ-ώ 7.-?44E
1.76?*=- q,0nAF-4 p#e;riO£

1.?coF 3 2.00PF 3

1.^2CF 7 P.T^IP 3

TslO.000 K NA = 1 NR = 3

a \ Loa(N) 14 Ie; 16 17 IR 1^
6.201 F
0.OO0F O S.404F ? 1.036F 3 1.R84F 3 3.OO0E 3 4.505F 3 6.202F 3
P.00OF-7 ^ . 4 1 OF P 1.03RF 3 1.PRSF 7 3 . 0 0 1 F *» 6.202E 7
3 1 .RR7C- 3 1.0O?F 7 4.505F -» 6.203F 7
3.00CF-7 S . 4 7RF ? 1.0 30F 3 3 7 . 0 0 4 F -» 6.204F 3
4.OO0F-7 S.465F ? 1.04 2F 3 1 iOfi-iF 3 7.096F 3 4.506F 7 6.205E 3
1.045F 3 1.R92F 3 3.0O9F 7 4 · RO 7f 7 6.206F 3
5.000E-7 5.498F ? 1.049F 3 1.R96F 3 3.104E 7 4.509E 3 6.21OE 3
1.057F 3 1.OO^F 3 3 . 1 I 6E 3 4.51 IF 3 6.221F 3
6.000F-7 5.53RF ? 3 1.Ol7F 3 T.14RF 7 4.514E 3 7
1.072F 3 3 3.192E 7 4.522E 3 6.236F
7.500F-7 5.61 IP ? 3 1.OSRF 3 3.314F 3 4.542e: 7 6.279E 3
1.11«F 3 3 3.475Γ 7 4.571P 3 6.334F 3
1.O00F-6 5 · 762F 2 1. 177F 3 2.014F 3 3.667E 3 4.652E 3 3
3 2.167F 3 4.759F 3 6.400E
1 .«O^F-6 6.163F ? 1·32ΘΕ 3 2.366E 3 6.588E 3
1.528F 3 2.604F 3 4.887E 3 6.768E 3
2.000E-6 6.6R3F 2 1.772F 3 3.322F 3 6.767E 3
2.53ΘΕ 3 4.131E 3 5.265E 3 5.74 1F 3
3.000E-6 8.050F 2 3.459F 3 6.646E 3 4.598F 3
3 6.R22F 3 5.663F 3 3.650E 3
4.000E-6 9.875F 2 6.620E 3 5.907F 3 2.032E 3
7 . 1 OOF 2 2 6.514E 3 1·229E 3
5.000E-6 1.215E 3 6.215F 1 4.P34E 1 2.614E 3
1 6.001E 3 2
7.50CE-6 1.970F 3 5.207E 1 2.422E 1 4.239E 3
2.*04F 1 1.434E 5.009F 3
1.000E-5 2.927F 3 1.4R4E 2.557E 4.R56E 3
2.448E 9.249E 6 . 5 4 2E 3 4.0Ì7E 3
2.000E-5 6.461F 3 8.401E 4.S76F 6.403E 7
4.047E 2.739F ^>.464F 7 2.197E 3
3.O00E-5 7.222F 3 2.«*65F 4.405E 3
1.308E 3
4.000F-« 6.3R5F 7
2.801E 2
5.000E-5 5.354E 3
1.094E 2
7.500E-5 2.565F 3 2.324F 3

1.000E-4 1.49IF 3 1.373E 3

2.00CE-4 2.502F 2 2·726E 2

3.000E-4 7.903E 1 1.035E 2

4.000E-4 3.795F 1 5.268F

5.000E-4 2.5Q6F 1

T = 2 0 , 0 0 0 K ΝΛ = 1 N^ = 7

a \ LOG(N) 14 1«^ 16 17 18 io

0.O00E 0 4 . 1 10F 2 7.R3-2F 2 1 ·43 1F 3 P.3PSL 3 3.4^RE 3 4.^17E 3
7.ΡΛΚΓ 2 7 3.4^^F 3 3
2.000F-7 4.12^F 2 2 1 .A!»?*" T ^.3P6F 3 3.4«9E 3 4.517E 3
7.861F p 1 .434F 7 ?.3R7E 7.460F 7 4·517E 3
3.OO0E-7 4.143E 2 7.RR4F 2.7POF -> 7.46 IF 7 4 . « M RE 3
7.01"»F 2 '·3Ò1 F 3.463E 3 4 · 519E 3
4.000F-7 4.160F 2 2 1 .4 36F ? P.3°3E 7 3.466E 3 4.520E 3
7.049F 2 P.398E 3.472E 3 4.52IE 3
S.OOOF-7 4 . 2 0 0 F 2 R.0 13E 2 1 ·4 39F 7 2.407E *5 3.4R9E 3 4.524E 3
8.1S1E 2 P.436E 3.513E 3 4.534E 3
6.000E-7 4.238F 2 8.529^ 2 1.442F 3 Γ.4 74Ε 3 4.547E 3
9.030F 3 1.448Γ 3 3 3.5Θ0Ε 3 3
7.500F-7 4.305F 2 3 P.SRI E 3 3.660E 3 4.584E 3
1.036F 7 2.723E 3 3.77RF 3 4.634E 3
1 .0O0E-6 4.442E 2 1.209F 1.460E 3 2.R04F p 4.694E 3
1.422F 3 4 . 1 1 OF 3 3
1.50UE-6 4.798E p 2.114F 3 1.496E 3 7.4 I5E 7 4.4R5E 3 4.880E 3
2.07«^ 3 1.«44E 3 4.006E 7 5.636F 3 5.085E 3
2.000E-6 5.257E 2 ^.c>5 IE 3 5.601F 3 5.604E 3
6.212F 3 7 5.066E 3 5.349E 3
3.000E-6 6.463F 2 7.00OF 3 1.677F 3 6.261E 7 4.227E 3 4·668E 3
6.314F 3 S.603E 2.4 37E 3 3.893E 2
4 . 0 0 0 E - 6 R.0Q«5F 2 *.396F 3 1.R50F 3 4.6S2E -Î 1 .4R4F 3 2.31PE
2.50OE 3.257F 2 1 •43r)F
S.OOOF-6 1.016F 3 2.60RF 3 2.059F 7 3 3 . 3 7 IE
1,^4F 2 1.^O^F 7 1.2P3F Γ
7.500F-6 1.703F 3 2.519F 1 2.706F 3 ? · 0 1 9F 7
1 7
1.000F-5 2.600F 3 R.427F 1 3.472F 3 1.P03F 2
2.000E-5 6.121E 3 4.037E S.52RE 7»
2.630E 6.176E 3
3.C00E-5 7.119F 3 6.729P 3 1

4.000E-5 6.446E 3 6.051E 3
5.09PF 3
« 5 . 0 0 0 E - 5 «=5 · 3 9 8 F 7

7.500E-? 2.626E 3 2.56PF 3
1 .'S3RP· p.
1.000E-4 I.SIOF 3 2.645F
2
2.000E-4 2.625F 2

3.000E-4 7.R76F 1 9.767F 1
4.593E 1
4.00ÜE-4 3.796E 1 2.779F 1
5.000E-4 2.623E 1

299

300 APPENDIX I. STARK PROFILES

T=H0,000 K ΝΛ = 1 MO = 3

o\ LOG(N) Ie; 16 17 IR io
O.GCCE 0 6.116E 2 3.60C^F 3
2.000E-7 6.128F 2 1.12^F 3 1.91 6F 3 2.841F 3 3.6C5E 3
3.0OOE-7 6.144F 2 "»•606E 3
4.00OE-7 1·127F 3 1 .916E 3 2.R42E 3
•S.000P-7 6.165E 2 3.606F "*
6.000E-7 1·128F 3 1 .. o l RE3 2.B4 3F 3 3.607F 3
7.S00E-7 6. 19**F 2 3.'S>07F 3
1.00CE-6 6.226F ? 1.130E 3 1.Q1«F 2.B4 3E 3
1.500E-6 1·132F 3 1.021F 3.60BF 3
2.000E-6 6.287F 2 1·13SF 3 -* 2.84«=;Γ 3 3 . 61 1 E 3
3.000E-6 6.41«5F 2 3 1.OP3F --*\ 2.846F 3 3.619E 3
4.000E-6 6.761E 2 1.140E 1.927F 3 3.629E 3
5.000E-6 7.213E 2 3 2.840F 3.658E 3
7.500E-6 3.69BF 3
1 .OOOF-5 Θ.405Ε 2 1·1^2Ε 3 1.936E •7 2.8«^4E 3
2.000E-«5 3.747E 3
3.000E-5 9.973E 2 1.184E 3 1.962E 3 2.Q70F 3 3.903F 3
4.000E-5 1.192E 3 4.087F 3
5.000E-5 1.R34E 3 1.228E 3 1·99RE 3 2.B92E 3
7.500E-5 2.651E 3 4.740E 3
1 .OOOE-4 1 .-*47E 3 2.096E 3 2.953E 3 4.863E 3
2.000E-4 «5.914E 3 4.Ρ.Γ6Ε 3
3»000E-4 6.946E 3 1 .«03F 3 2.227E 3 3.0 35F 3 3.94 IE 3
4.000E-4 6.3Θ5Ε 3 2.^18E 3
5.000E-4 5.517E 3 1.693F 3 P.3R6F 3 3.137F 3 1.612E 3
3.4^2F 3 3.970E 2
2.67RE 3 -*2 . 2 9 4 E 2.R79E ?
1.^9^E 3 3.821E 3
2.574E 2 3.029F 3 3.459F 3
8.360F 1
5.R4BE 3 ^.SRIF 3 5·139F 3
3.996F 1 6.673E 3 5.506E 3
2.677F 1 6.1 see 3
6.168E 3 «5 . 1 1 7 E 3
«^.736E 3

5.304E 3 4.R72E 3 4.3R5F 3

2.659F 3 2.636E 3 2.597E 3

-*1.610F 3 1.600F 1 .60 3F 3

2.674F 2 2.9P4E 2 3.466E 2

9.2*S9F 1 1.094E 2 1.349E 2

4.496F 1 S.4P3E 1

2.766F 1

T=80,000 K N A a , ΝΠ = 3

β\ LOG(N) Ie; 1* 17 1R io
O.Prnç. o 4.R7-ÎF p O.ft^nP 2 1 .*71F -j 2.407F 3 3.0O0E 3
2·ΟΟθρ-7 2.407E 3 3.090E 3
3.000E-7 4.RR6E 2 O.P^OF 2 1.S72E 3 2.40RF 3 3.091E 3
4.000E-7 1.573F 3 3.091E 3
5.000E-7 4.901E 2 9.H63F 2 2.409E 3 3.092E 3
6.0Q0E-7 1.574E 3 3.092E 3
7.«=K)0E-7 4.923E 2 9.081E 2 2.410E 3
1.OOOE-6 1 .576E 3 2.41 IE 3 3.093E 3
1.SnnF-6 4.950E 2 9.104E o 1.578E 3 3.096E 3
?.OCOE-6 4.983E 2 9.132E 2 2.414E 3 3.103F 3
1 .«S82E 3 2.419E 3 3.113F. 3
3.00PE-6 *^.042E 2 9.183F 2 1.«9IE 3 2·4 3Γ>Ε 3 3.140E 3
4.00CE-6 1.61^F 3 2.456E 3 3.178E 3
5·OOOE-6 «?.166F 2 9.293F 2 1.649E 3 3.224E 3
7.S00F-6 «=>.z>93F 2 9.<*OBF 2 2.517E 3
t.O^F-S 1.743E 3 2.59BF 3 3.374E 3
o.OP^F-^ S.017F 2 1.P01F 3 1.R68E 3 2.698E 3 3.557E 3
3.0P~F-^ 2.021E 3 4.291E 3
4.0ΓΓΕ-5 7.025F 2 1.112E 3 3.015F 3
2.499E 3 3.393E 3 4.603F 3
■UOOOE-^ 8.498E 2 1.P57E 3 3.07AE 3 4.8«^7F 3 4.439E 3
7.50CE-S ^.342E n e.441F 3 3.983E 3
1.000F-4 1.033E 3 1.434E 3 6.160F T «S.213E 3 2.642E 3
2.00ÜE-4 «^.P71E 3 4.549E 3 1·722E 3
3.00 0E-4 1.64 3F 3 2.004F 3 «•077E 3 2.71 IE 3 4.262E 2
4.000E-4 2.72SE 3 1.684E 3
S.000F-4 2.430«=· 3 2.71Q«=· 3 1.668E 3 3.52IE 2
2.9B0E p
-*«*.69PE ^•616F 3 1 .344E 2
1.06RE 2
-*A . O 0 3 F 6.6A7F 3 ^.-*03E 1

6.439«=- 3 6.264F 3

« . S 7 1 F 3 S./i74F 3

2.721E 3 2.72^E 3

1 . 6 1 1«=" 3 1 .657c 3

2.636F 2 2.676F 2

R.2*2F 1 9.071F 1

T.OS2F 1 4.-»6RF 1

2.706F 1 ?.740F 1

r· r r. r n n r> r> r r. c) r) n n n n e> n r· r) r: N r cv----< c c ——~ ~

0 lLli.lLliJUJbJUJLJ(i.ltJLJUJUJUJk.'bJliJliJUJbJUJUJ IL li. ÜJ li. Ili Ü. L I III
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- c r cc σ «c r L It L D U. U
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r-r-r~r-r~f^h-h-f^i^cccccooftjo<j«oh-^n * CC OC vC I f · -c.coccv.

r~ (v r> c c c i C h <fC^ C

^c cc r c

- - r- if c . if ft. - if «· Λ. —

- - cc c ftj (v ftj Tg (\, Cv. e,ftjftj(vjft,c j <Vft.(v — ~ — — e· o c

CCL. L U. U' L. UJ LI UJ UJ U I I J U J U U U J U J U J Ü J Ü J U J I J J U J U J L u u uuu CU Ui bU. oli. rli.i li. CC L; Li UJ UJ L. L IU L! It!L·1LI Lü L ü L L· UJ L! L h i L1 L
* a. r- (v, c o* a c < \C <i h
- c c~Mm-*r^<vccoa~M<\Jcco-~mo<t<t*> a ce a >c r r — r- ir o w e « f t - c o o r t e f c r o c c e — a, cc
o c a a o o a o - r a c c œ o c o h t v w c o ^ —« - - - c c c f - ( v i f \ c < ì * ir ft. - a c r o f t . f t j f t j « '
c c c c c o c — ——— (virj^ovo^nr-^f^iflo £ - - ι^ if (v. o if - a <t r (v. - cncca)cor-f^r->o«ftji^ftjroc « h i r i ^ i i c e
(v<v(v(v(v,oj<v.<v;(v<v;«V;(v<vj<vjn<tif in « ft. — n — <r <J <t « <ί <ί <J <i < n r, a Λ »- r tf r». - x r "

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ir
Olitili III IIII
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h c r a — r> *c —ftj— — h c o i i c c r r i r a h - c c i h - o m « — \ C \ 0 i ^ — ( v . r « « r r » c t — c c r \c >0 if ft σ r. « c - c o f t .
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( c œ c c c c c c r ^ f ^ v C i r c n f t j f t j — —criTft. — vOfti — h ^ r f t j

r rrr C ft (V ft. 0 ft r, r. r) r r c-;ft.<vft.ftjftjft.c»ft.(v. ·

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— *o σ c - ( v ( v » £ » i > c * ·> — ft.ft.ft.-· — c a b r i v i — < o r ) h ft. a r, - c o * - c a c » O c c
roftj-σ < f ^ Γ < ♦ - ε ^ < }
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c ^ hir -ft -hc
CD Γ» »C If r ( V - C * C * C l i f t ;

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I IIII III IIIIIIIIIIIIIII I OI I I IIIIIIIII OC I I I I I I I I I II
L U L U I U j U I U i L i L J U U: Ul LI L) UJ UJ L UJ lu L' L» LI UJ LI LI
C C C Ü C C C O C C C C O O C O C C C O C O CC C J UJ UJ L cL_. cU oL- oL cUl cUJ cL· cU cU: cU O* _ J UooI UooJ ÜooJ UccJ UcoJ UccJ UccJ UocJ UocJ oUoJ cUoJoocUoJ cUeJcUcj cUcl UocI UcJoUoJoUoJoUcIoUeJcUiJ UfcJ ohoJ mUoJoUoJ

ccocooccccccoccc oo —
ccccooccc o o - -. c C C O O r - -
'ccccco ifcsrcccoincoccoifcococ „oooccciroiroccc
OOOCOCIfOlfOCOOIf.ClfOCOOIfC (Vilfh-C

c ft. r « if >c f^ ft.r. <r ir r- —ftjr <t ir h- — (vjr, <f in j o — (VJ r « i f f ^ — — (v.r. <rif e· · · · · · ·· ftj
o — ftincirr*— — ftjntfiTh·—-ft.n*irf·--«—

302 APPENDIX I. STARK PROFILES

T S 2 0 . 0 0 0 K \>Λ = p N^ - 3

o \ LOfiCN) 1 4 1^ 1 6 17 18

o . o o r ^ F - i Pi ^ Ι 7 Γ "λ 1.Δ70Γ 3 °.l47r ? 6 . - Π 3F o 4 . 7 1 7F p
1 . o r . f E - * ) Pi , « S 0 5 F T 1 . 4 6 1 F 3 O.WKF P 6.-*06F P 4.715F 2
1 . 4 1 OF 3 1*Op^F 6.287F P
2 . O O ^ E - 5 Pi ► 2 2 3 P - t 1.333F 8.880F 2 6.2">6F p 4.70OF 2
3 . 0 0 0 E - 5 1 ». 8 7 8 F 3 2 6 . 2 1 2Γ P. A.700F 2
4.0GCE-5 1.552F T -*1 . 2 4 I F R.686E 6 · 1 *pt:. p
->1 i► 2 7 7 F -»1 . 1 4 2F 3 R.a5?F 2 «.079E ? 4.6R7E 2
5.OOOE-5 p «,7«?3F ? 4.671F 2
8,► 160E 2 «.22SF ? 4.616E 2
7.500E-5 9.O60F 2 7.754F 2 4.684F P 4.542F P
1.OOOF-4 ^.685*· ? 4.34,OF P
7.P01F P 6.Ο00Γ P 3.766F 2 4.116F P
1 . 5 0 0 E - 4 3,, 5 4 2 F ? 4.031F P 5.639Γ P 3.106E 2
2 . 0 0 0 E - 4 Pi , 8 2 * F 2 3.821F P 4.63eF 2 3.61 IF 2
2.632E 2 3.135E 2
3 . 0 0 O F - 4 Pi , 4 R 9 F P 2.934F 2 3.461F 2 1.P67E 2
1·396E 2 2.724E 2
4 . 0 0 0 E - 4 2«» 3 6 0 E P 2 . 5 6 IE 2 2 . 8 4 3F 2 R.545F J 1.970F 2
5.000E-4 2·196F P *.*67F 1 1.4 70F 2
7.500E-4 1.629F P 2.295E 2 2.447E 2 p · «s i o e 1
1.306E 1 ^.004F 1
1 . 0 0 0 F - 3 1 ►, 1 9 4 F P 1.691E P 1 .766F 2 7.782E 0
3 . 0 1 8E r 5.853F 1
1 .^00Ε-3 7.8«RF 1 1.247F P 1.315F 2 1.554E o 2.779F 1
R.004F 1 8.221F 1
2.000F-3 5.613F 1 0.319E--1 1.522E 1
3 . 0 0 0 E - 3 Pi » 3 2 I P Ì 5.560F 1 5.48^F 1 6 . 2 l ^ E --1 9.393E 0
2.270F 1 2.346F 1 3·Θ49Ε 0
4 . 0 0 0 E - 3 1«, 0 5 3 F 1 1.087F 1 1.16«E 1
2.042E 0
5.000E-3 5.553F 0 6.019F o 6.686E 0
7.500E-3 1.814F 0 2.082F 0 2.447F 0

1.000E-2 7.791F-•1 9.953F--1 • 1.220F 0
1 . 2 5 0 E - 2 4 . l ? O F --1
^•«;71Ε--1 7.110F-•1
1.50OF-2 3 ,►846F-1 3 . 9 8 6 F - - 1 4 . 7 7 2 F - »1

1 . 7 S O F - 2 Pi , ? ^ " ? P . - 1 2.584F--1 3.22^F--1
2.PO">F-2 1.069Γ-1
1 . 6 6 1 F - - 1 ?.73Tftc·-- 1

TsUO.000 K ΝΔ s P NR = 3 16 17 18 2 19 2
2 2
o \ Lor,(N> 15 1.023F 3 6.662F 2 4.732F 2 3.495E 2
O.OOHF-1 1 ·O1 Re 3 6.6e;3F ? 2 2
1.742E 3 1.O03F 3 6.627F P 4.730F 2 3.405E 2
1 .OO^F-^ 1.71 IP 3 6.584F P 4.724F 2 3.493E 2
?.ηηοΓ_«ή 1.624F 3 9.P05F P 6.526E P 4.714F 2 3.490F 2
3.00^F-5 1.499F 3 9.R06F 2 6.453E P 4.699E 2 2
4.00CE-5 1·356F 3 9.153E 2 6 . 2 1 6 E P. 4.681E 2 3.485E 2
5.000E-5 1 .212E 3 8.146E 2 4.620E 2 3.480E 2
7.500E-5 9.015E 2 7.131F 2 5.923E 2 2 3·460Ε
1.OOCE-4 5.477E 2 5.269E 2 4.539E 2 2
1 .500E-4 6.840E 2 4.38PF P 4.638F ? 4.328E 2 3·434Ε 2
4.472E 2 4.076E 2 3.362E 2
2.000F-4 3.442F P 3.254F P 3·650E 2 2 3.267E 2
3·00Ο£-4 2.725E P 2.713F 2 2.997E 2 3·545Ε 1 2
4.00OF-4 2.455E P 2.373F 2 2.549E 2 3.061E 1 3.035E 1
5.000E-4 2.244E 2 1.738Ë 2 1.829E 2 2.655E 1 2·777E
7.500E-4 1.670E 2 1.294E 2 1.378E 2 1.931E 1 2·520Ε 1
1 .000E-3 1.226E 2 8.262F 1 8.629E 1 1·467Ε 1.956E 1
1.500E-3 8.023E 1 5.744E 1 9.152E 0 1.530E 1
2.000E-3 5.709F 1 5.663E 1 2.596F 1 0 9.789E
3.0OOF-3 2.336F 1 2.41'F 1 1.331E 1 6.061E 0 1
4.000F-3 1.102F 1 1.180F 1 2.900E 6.596E
5.997E 0 7.813E n 1·576Ε 3.348E
5.00^E-3 2.027E 0 6.667F o 9.643F 1.924E
9.453E--1 2.964F o
7.500E-3 5.207E--1 2.384E 0 1.51 IE 0 3·893Ε 1.223E
1 .000E-2 3.925E--1 1·175E 0 2.050Ε
1 ·250Ε-2 2.498E-•1 6.777E· •1 8.997E-1
4.593E--1 6.000E--1
1.500E-2 1.487E--1 3.059F-•1
1 .750E-2
2.000F-? 2 . 1 7 8 F - ■1

Τ=80,000 Κ ΝΛ = ?

α\LOG(N) 16 17 IB 19
4·<·>08Γ
ο.οοοε-1 ι·ΐ7ΐε 3 7.234t 2 2 3.462E
4.905F 2
1 .000Ε-5 1·163Ε 3 7.221E 2 4.898F 3.482F
2.000Ε-5 4.885F 2 3.4B0F
3·00^Ε-« 1·139F 3 7.1Β2ΡΓ 2 2 3.477F
4.000F-5 1.1Π2Ε 4.868F 3.472F
1.H54F -* 7 . 11 9F y 4.845F 2 3.466F
5.000F-5 4.770F 2 3.446F
7.500F-5 3 7 . 0 T - Î F r> 4.671E 2 3.418E
1.000Ε-4 4 . 4 1 7E 2 3.342F
1.500Ε-4 9.997F 2 6.°27F 2 4.124E 2 3.244E
2.000Ε-4 6.eolF ? 3 . «5 3 0 F 2 3.004F
3.00ΠΕ-4 8.K4QP" 2 3.0Î7E 2 2.742F
4.000Ε-4 2.606F ? 2.4B3F
5.000F-4 7.196F 2 6.18BE 2 1.896E
7.500F-4 1.44BF 2 1.928F
1.000F-3 5.24 IF 2 5.342E 2 9.183F 2 1 . «M 7 F
1.50ΟΡ-3 6.170E 2 9.858E
Ρ.000Ε-3 4.102E 2 '4. « 9 1 E 2 2.958E 1 6.730E
3.000Ε-3 1.5R6F 1 3.444E
4.0O0F-3 3.P49F 2 3.529F 2 0.5B1F 1 1.072F
5.00^-3 3.790F 1.247F
7.500F-3 2.«96F 2 2.«°2E o 1.97BF 1
1.00PF-2 2.475F P 0
1 .25~,E-2 2.312F 2 0
1.50OE-? 0
1 .750Ε-2 1.716F 2 1.796E 2

2.000Ε-2 1.272F 2 1.356E 2

8.252F 1 8.633E 1

5.795F 1 5.B61E 1

2.450Ε I 2.638E 1

1 .182F 1 1.331F 1
7.693F
6.S79F 0 2.B52E n
1.439E
2.301F 0 *o

1.119F 0

6 . 3 7 6 F - .1 8 . 4 9 B E - -1

4 . 3 9 4 Ε - -1 5 . 6 7 3 E - -1

2 . Β 9 0 Ε - -1

1.094F-1

Tsl60,000 K ΝΛ s2

θ \ LOfWN) 16 Ï7 IB 2 le»
O.OOOE-1 1.354F 3 7.97BE 2 5.1B2F 2 3.554F
5.179E 3.553E
1.οοοε-5 1.34DF 3 7.958E 2 5.169E 2 3.bblE
1 ·30 1E 3 5.Î52E 2 3 . 5 4 7E
2.Û0'wE-5 1.241F 3 7.899E 2 5.129F p
3.000Ε-5 7.B04E 2 5.1PPF 3.542F
4.00θρ.-5 1·167F 3 7.674F 2 ^•002F 2 3.535E
5.0O0F-5 1.ORSP 3 2 3 . «M 2 F
7.500F-5 7.*1-*F 2 4.B74F o 3.481F
8.«24F 2 7.02OF 2 4.557F 3.396F
1.000F-4 7.131P 2 6.4 72F p 4.202E 2 3·2BBF
1.500Ε-4 4.932F 2 3.525E 2 3.026E
2.0Ρ0Ε-4 T.793F 2 5.385F 2 2.979E 2 2.745E
3.000Ε-4 2.B58E 2 4.507E 2 2.562F 2 2.474F
4·00ΟΕ-4 1.865F 1.91 IE
5.0Ρ0Ε-4 2.497E 2 3.394E 2 1.4 2BF 2
7.500Ε-4 2.265^ 2 9.160E 1.^04F
1.0OCF-3 2·790E 2 6.231F 2 9.863E
1.500Ε-3 1.697F 2 2.981E 2 6.793E
2.000Ε-3 1.25PF 2 2.412F 2 1.573E 3.4B6E
3·00ΠΕ-3 8.222F 1 1.76«E 2 9.375F 1 1.979E
4.000Ε-3 1.333F 2 3.632F 1 1.240E
5.894F 1 B·599E 1 1.877E
5.000Ε-3 2.473F 1 5.947E 1 1
7.500Ε-3 1·17BF 1 2.656E 1 1
1·ΟΟ^Ε-2 6.468F 0 1 · 3 1 9E 1 0
1.250F-2 2.21BF 0 0
1.500E-2 7.518E o
1.750E-2 1.062F o o
2.00ΟΕ-2 2.729F 0
5.Q68F-•1 1.362E o
4 . 2 2 2 F - »1
2 . 7 4 4 E - -1 7 . 9 7 6 E - -1
1 . B 0 5 F - -1 5 . 3 4 2 F - -1

Τ=5,000 Κ NA = ΝΠ = 4 T=5,000°K Ν Λ = p ΝΠ =

α \ LOG(N) î4 IS a \ L O G ( N ) 14 Ie)
6.04 pc 4 . 0 P P F - 3 P.863F 1 P.883E
ο.οοορ-ι 4 . ? ^ 4 F 1.09 1F ; 1.673E
?.<=500F-4 α.182F 1.664E ; 5 . 0 0 0 E - 3 1·β\*Γ i 1.073E
1.9P4F ; 6.000F-3 1.014F 1 S.P71E
5.000F-4 1 .636^ 1.894F ; 8.000E-3 4.814E 0 3 . 0 4 1F
1 ·741 F ; 1.000F-? ^>.698F O 1 .7f>6F
7.S00E-4 1.98 IF 1m^PPF 7 1·?^0Ε-2 î.^3or O 1 · l^PF
1·naoF ; 1 .«=:00F-P 1.0 ?*.F * ^·136F
1 .ΟΟθΕ-3 1 .969F 7.60SF 1 1.7S0E-? 7.324F-1
1 ·?*,0*-3 e;.4^0F 1 P . 0 0 0 F - ? *.i?or-i
1 .«=500^-^ 1.83^
1.619F

P.000F-3 1.1Κ7Γ

P.^POF-3 7..R4 6F

3.000F-3 «=;. ς ο ο ρ

303

τηο,οοο Κ ΝΔ = 2 NR = ί

α \ LOG(N) 14 15 16 17 18
5.<^30F 1 1.OQ6F 1 .402F 2
o . o n ^ r - 1 Τ,.ΤϋΟΓ 1 9. 335P 1 R.p^ftF 1 1.P44F 2 1.492E 2
1 1 .526F 2 1.OR6F 2 1.4 86E 2 1.623E 2
P.<^<~F-4 Ρ,ΓΙΓ.ΠΓ 2 1#R44E 2 1.^OlF 2 1.609F 2 1 .651 E 2
5.0Ρθρ_4 2 1.867E 2 1.726F 2 1.^90E 2 1.569E 2
1 .<^2RF 1.760E 2 1.736F 2 1.481E 2 1 .42<E 2
1.624F 2 2
7.^0"E-4 1.Öl7F 1.566E 2 1.327E 2 1.257E 2
1.141F 2 1.449E 2 2
1·00·">Ε-3 1.94 3F 2 P . 013F 1 1.008F 0.428E 1
1.250E-3 1. 8 4 8 Ε 2 5.77QF 1 1.o77F 2 T.485F 0 6.9R8F 1
3.042F 1 7.-?Q5F 1 0 S.231F 1
1.500F-3 !.655F 2 1.746F 1 ^•ftORF 1 ^.^P2F 0 3.072F 1
1.202«^ 2 1·107F 1 3. 144F 1 3.228E 1.933F 1
2·00~>Ε-3 1 5.350E 0 1.875F 1 ^.003F 1.30 3E 1
p.^noF-T Ρ·146F 1 3.054E 0 1.221F 1 1.34 0E 6.885E 0
^.ΠήΠΓ 6.148E 0 _7.007E 4·178E 0
3.000F-3 1.759F 0 3.61 IE 0 4.218E
1.150E 0 ^.54 4E
4.000F-3 P.974F 1 8 . 1 6 5 F - -1 2.132E o
5.000F-3
6.000E-3 1 .6ft IF 1 1.396F 0
1.033F 1

8.000E-3 4.838Ε 0
1.OOOE-2 2.676Ε 0

1 .250F-2 1.529F 0
1.500E-2 1.031E 0
1 .750Ε-2 7 . 3 3 1 F - -1

2 . 0 0 0 Ε - 2 5 . 0 6 8 F - -1

Ts20*000 K NA m 2 MB · 4

« \ LOG(N) 14 15 16 17 18 19
4.508Ε 1 6.894ε 1 9.272Ε 1 1.U9E 1.462E
ο.οοοε-ι 2 · 6 7 2 Ε 1 8.Ρ77Ε 1 2 Î.509E 2
2·500ε-4 7.294ε 1 1.441E 2 9.513E 1 1·073ε 2 1.189E 2 1·580ε
1·799ε 2 1·394ε 2 1.332E 2 1.318E 2 1·582ε 2
5·000ε-4 1.457E 2 1·855ε 2 1·Α66Ε 2 Î.501E 2 1.396E 2 1·504ε 2
1·782ε 2 1·720ε 2 1.535E 2 2 1.373ε 2
7·500ε-4 1.876ε 2 1.606E 2 1·644ε 2 1.469ε 2 1·395ε 2 1.222E 2
Î.928F. 2 1.184E 2 1.487E 2 1.344ε 2 1·328ε 2 9.316E 2
ι·οοοε-3 8.297Ε 1 1.222E 1 6.997Ε 2
ι·8·>τε 2 6.003ε 1 ι·ΐ2ΐε 2 ι·ο5οε 2 9.770Ε 1 5·292ε 1
1·250ε-3 3.134ε 1 7.565Ε 1 3.156ε 1
1.6Θ2Ε 2 1·776ε 1 8.164Ε 1 7.920Ε 1 5·832ε 1 2.005ε
1·500ε-3 1.115ε 1 5·990ε 1 5.962Ε 1 3.549Ε 1 1·359ε 1
5.297ε 0 3.283Ε 1 3.463ε 1 2.282ε 7.228Ε 1
2·000ε-3 1.238E 2 2.988ε 0 1·933ε 1 2·140ε 1 1 1
1·707ε 0 1·560ε 0
2.500ε-3 8.348Ε 1 1·122Ε 0 1·245ε 1 1·424ε 1 8.377ε 1
8 · 0 0 9 ε - -1 6.162ε 0 5.129E ο 0
3·000ε-3> 5.998ε 1 3·58ΐε 0 7.377ε 0
2.098ε 0 4.414E 0
4·000ε-3 3.039ε 1 1·369ε 0 2.649Ε 0

5·000ε-3 1·683Ε 1

6·000ε-3 1.040F- 1
4.812E 0
β.οοοε-3 2.624ε 0
ι·οοοε-2 1·516ε 0

1·250ε-2

1·500ε-2 1.038E 0

1 . 7 5 0 E - 2 7 · 2 2 8 ε - •1

2 · 0 0 0 ε - 2 4 . 9 6 5 ε - »1

2·500ε-2

Τ*Η0»000 Κ N Ä , 2 NR « 4 16 1 17 1 18 1 19
5.831E 1 8.077Ε 1 9.721E 2
β'\ LOGCIM) 15 8.559Ε 2 9.629Ε 2 1.041E 2 ι.ιιιε 2
0.000E-1 3.707Ε 1 1.331E 2 1·252Ε 2 1·178Ε 2
2·500Ε-4 7.529Ε 1 1.642Ε ? 1·459Ε 2 1.2Θ4Ε 2 1.141E 2
«5·000Ε-4 1.387E 2 1.725F 2 1·526Ε 2 1·318Ε 2
7.500Ε-4 1.776E 2 1.675F 2 1.4R6E 2 1.287E 2 ι·2οιε 2
1.000Ε-3 1.854E 2 l.«*29F 2 î.376E 2 Î.210E 1
1.250E-3 1.805E 2 1.160F 1 1·087Ε 1 9.984Ε 1 1·24ΐε 2
Î.500F-3 1.642F 2 8.433Ε 1 8.245Ε 1 7.895Ε 1 1·238Ε 2
2.000Ε-3 1.219E 2 6.190Ε 1 6.217E 6.170E 1.194E 2
2.500Ε-3 8.487Ε 1 1 3.586Ε 1 3.804Ε 1 1·119Ε 2
3.000Ε-3 6.150E 1 3.353Ε 1 2.1R9E 1 2.453Ε 9.330Ε 1
4.000Ε-3 3.181E 1 1.Q46E 0 1·441Ε 1 1.675F ! 7.497Ε 1
5.000Ε-3 1.783E 1 1.239E 0 7.345Ε R.966F 5.958Ε 1
6.000Ε-3 1.108F 1 6.01«F 4.350Ε ο 5.472Ε 1
8.000E-? 5.18RE 0 0 2.591E 0 3.798Ε 1
1.000E-2 2.R90E 0 3.457Ε 0 0 0 2.520Ε 1
1.25CE-2 1.643E 0 2.006F 0 1·758Ε 1
1·500Ε-2 1.091E 0 1.307E
1·750Ε-2 7 . 8 0 3 Ε -•1 9.673Ε ο

304

T:8Q,000 Κ ΝΑ = 2 ΝΒ = <%

a\LOG(N) 16 17 18 19
4·993Ε 1 8.798Ε 1 9.535Ε 1
O.OOOE-1 7.858Ε 1 7.155E 1 9.537Ε 1 9.786Ε 1
2.500E-4 1.292E 2 8.841E 1 1·107Ε 2 1·034Ε 2
5·000Ε-4 1·635Ε 2 1·204Ε 2 1.236E 2 1.084Ε 2
7·500Ε-4 1·445Ε 2
1.737E 2 1.295E 2 1·104E 2
1·000Ε-3 1·708Ε 2 1.539E 2 1.285Ε 2 1·09 IE 2
1·250Ε-3 1 »569F 2 1·517Ε 2 1.222E 2 1·049Ε 2
1.500Ε-3 1·414Ε 2 9.147E 1
2.000Ε-3 1·193Ε 2 1·024Ε 2 7.624Ε 1
2.500Ε-3 8.627Ε 1 1·122Ε 2 8.15RF 1 6·232Ε 1
3.000Ε-3 8·502Ε 1
4·000Ε-3 6·329Ε 1 6.400Ε 1 4.126E 1
5·000Ε-3 6·398Ε 1 3·942Ε 1 2.798Ε 1
-6·000Ε-3 3·385ε 1 3.647Ε 1 2.525Ε 1 1·975Ε 1
Θ.000Ε-3 1·937ε 1 2.193E 1 1.712E 1
1·000Ε-2 1·220ε 1 1·426Ε 1 9·055ε 0 1.100E 1
1.250Ε-2 5·827ε 0 5.484Ε 0
1·500Ε-2 3.310E 0 7.143E 0
1 ·904Ε 0 4·185Ε 0

1·242Ε 0 2·473Ε 0

Τ^Ι&Ο,ΟΟΟ Κ ΝΑ » 2 ΝΒ = 4

α \ LOG(N) 17 18 19
8.638Ε 1
ο·οοοε-ι 6·475ε 1 8·144ε 1 8·864ε 1
8·919Ε 1 9·388ε 1
2·500ε-4 8.252ε 1 1.056E 2 9·913ε 1
1·16βε 2 1.202E 2 1·023ε 2
5·000ε-4 1·434ε 2 1.280E 2 1·025ε 2
7·500ε-4 1·547Ε 2
1.541E 2 1·285ε 2 ι·οοιε 2
ι·οοοε-3
1·445ε 2 1·233ε 2 8.977ε 1
1·250Ε-3 1·150ε 2 1·044ε 2 7·660ε 1
8·704ε 1 8·370ε 1
1·500ε-3 6·377ε 1
2·000Ε-3 6·542ε 1 6.581E 1 4·327ε 1
3·693ε 1 4·045ε 1 2·975ε 1
2·«500ε-3 2·ΐ93ε 1 2·573ε 1 2·115ε 1
1·413ε 1 1·733ε 1 1·184ε 1
3·οοοε-3 6·972ε 0 9·065ε 0
4·049ε 0 5·452ε 0
4·000ε-3 2·376ε 0
5.000Ε-3
6·000Ε-3
8·000ε-3

ι·οοοε-2

1·2β0Ε-2

Τ=5,000 Κ NR = 5

ΝΑ = 2 15
1.704E 2
<*l L O G ( N ) 14 1.663E 2
1.558F 2
ο.οοοε-ι 2.306Ε 2 1.42RE 2
ι·οοοε-4 ?·133Ε 2 1»305F 2
2·000Ε-4 1·787Ε 2 1·202Ε 2
3·0ΟΟΕ-4 1.486F ? 1·122Ε 2
1·062ε 2
4·000Ε-4 1.280F 2 1.018E 2
9.630F 1
5.000Ε-4 U 1 4 7 F 2 β·366Ε 1
6·000Ε-4 1.061F 2 4.46ΡΕ 1
2.03 IE 1
7.000Ε-4 1.006E 2 1·051Ε 1
6·?16Ε 0
θ·000Ε-4 9.698F 1 4.036Ε 0
2.799Ε 0
1«000Ε-3 «•281F 1 2·044Ε 0

2.000F-3 8.577F 1

4.000Ε-3 4.61 IF 1
6.000Ε-3
1.947F \
Β·ΟΟΟΕ-3
P»C>7C=;F 0

1·ΟΟΠΕ-? *·4^0Γ ο

1·200Ε-2 3.459F 0

1·400Ε-2 2.347Ε 0

1·600Ε-2 Î.6Q0E 0
2.000F-? P.P36F-•1

305

TslO>000 K NÄ = ? N* = 5

α \ LOG(N) 14 15 16 17
1.793E 2
Ο·ΟΟΟΕ-Ι 2.566F 2 1.734E 2 1.371F 2 1·188E 2
1.590F 2 1·356E 2 1.182E 2
1.OOOE-4 2.285E 2 1 .-U5E 2 1·165E 2
2.0OOF-4 1«704F 2 1.425E 2
1.27BF 2 1·?56E 2 1·140Ε 2
3.0Ο0Ε-4 1.432F 2 1.162^ 2 1.191F 2
!.076F 2 1·12BF 2 1·109E 2
4 . 0 0 0 F - 4 1.216«^ 2 1.014F 2 1.076F 2
9.690E 1 1.072F 2
*=>.ΟΠ^Ρ·-4 1#OROF 2 9.149E 1 1.024F 2 1.043E 2
6·ΟΟΠρ-4 1.01IF 2 P.P44F 1 9.P4 0E 1
4.671E 1 1.0 12E 2
7.00^F-4 Q.619F 1 ?.10-^F 1 9.266E 1 9.B40E 1
fì.OOCF-4 ο·206Ε 1 1.067^ 1 9.359E 1
6.210F 0 7.905F 1
1.00CE-3 P.P78E 1 *>·9Θ7Ε 0 4.*47F 1 7.718E 1
2.742E 0 2.231F 1 4.396E 1
2.000E-3 e.4f>op- 1 1.990E 0 1 .?n-*F 1 2.275F 1
4.00OE-3 4·702F 1 7.2P7F 0 1·281Ε 1
ft,0^nF-7 1»POPP î 4.BO7F 0
3.375F 0 ->.984E o
B.OO^F-*5 ο.6**3^ n
1.O^E-? «•3P7F Λ 5.373E 0

1.200E-2 -»•392F 0

1.400E-2 2·276Ε 0
1.600E-2 1.63IE 0
2 . 0 P ^ E - 2 0.44ûer.-1

Ts2O,0QO K ΝΛ = 2 NR = «b

a\ LOG(N) 14 1^ 16 17 18
1.95BF 2 1 .093F 2
0.00^F-1 2.954F 2 1.B64F 2 1.42^F 2 1.132E 2 l.OBOE 2
1.OOOE-4 2.472«^ 2 1.651 E 2 1 .404F 2 1.079E 2
2.000E-4 1.775F 2 1.4 30F 2 1.348F 2 1·126E 2 1.064E 2
3.000E-4 1.272E 2 !·109E 2
4.000E-4 1·359F 2 1.254F 2 !.083E 2 1 .044E 2
1.191F 2
5.000E-4 1.143F 2 1·127E 2 1.052F 2 1.022E 2
6·00·^Ε-4 1.039E 2 1·115E 2 î·018E 2 9.9B7F 1
1.0 36F 2 O.770E 1 9.841F 1 9.755F 1
7.00^F-4 °.33PF 1 1.049E 2 °.532E 1
B.00OE-4 9.706F 1 P.B16F 1 9.953F 1 9.^25E 1 °.122E 1
P.180E 1 °.^2PF 1 «.237F 1 -7.527E 1
1.OOOF-3 9.20QF 1 4.B30E 1 B.opSF 1 8.750F 1
2.00ΠΕ-3 O.034F 1 2.135E 1 7.B13F 1 7.41OE 1 4.402E 1
P.593^ 1 4.713E 1 4.573E 1 2.351 E 1
4.000E-3 P.398F 1 1.060F 1 2.291E 1 2.425E 1
4.930F 1 6.056F 0 1.349E 1
3.B45F 0 1.212F 1 1.367E 1 8.496E 0
6.000E-3 2.023E 1 2.619F 0 7.226F 0 B . 4 9 5 E Γ)
4.714F 0 «·696E 0
B.000E-3 9.5B1P 0 1.890E o ^•^83F 0
1.00ΓΕ-2 5.266F 0
1.2O0E-2 3.303F 0
2.1P5F 0
1.400F-2
1.600F-2 1.561F o
2.000E-2
9.018E--1

T s « * 0 , 0 0 0 K NA = 2 NB = 5

α \ LOG(N) 14 15 16 17 18

0 •OOOF--1 2.191E 2 1.526F 2 1.147F 2 9.596E 1
1 •00OE--4 2.032E 2 1.495F 2 1·139E 2 O.570E 1
9.496E 1
2 •000F--4 1.709E 2 1 .414E 2 1 .1 18E 2 9.379E 1
3 •OO^E--4 1.421E 2 1.31.0E 2 1.087E 2 9.229E 1
4 •000E--4 1.221E 2 1.205F 2 1.049E 2 9.058E 1
1.009E 2
5 •000E--4 1.090E 2 1.112F 2 9.707E 1 8.874E 1
1.036E 2
6 .OOOE--4 1.005E 2 9.347E 1 P.687E 1
9.475F 1 9.767E 1 9.026E 1 8.503E 1
7,•00OE--4 °.307F 1 8·Κ12Ε 1
8 •00OE--4 9.077F 1 7.298E 1 P.161E 1
1 ,000F--3 P.572F 1 P.696F 1 4.706E 1 6.942E 1
2 •OOOE--3 7.789F 1 2.494E 1 4.537E 1
4 •000E--3 8.149F 1 4.B51E 1 1.388E 1 2.583E 1
4.957E 1 2 · 3 1 1 E1 1.523E 1
6 •OOOE--3 1.194E 1 8.522E 0 9.701 E 0
8 .OOOE--3 2.143E 1 6.999E 0 5.664E 0
1 .OOOE--2 1.041E 1 4.51 IF 0
5.B50E 0 3.114F 0
1 •200E--2 3.679E 0
1 •400E--2 2.4B2E 0
1 •600E--2 1.781F 0

306

A l . b . IONIZED HELIUM 307

T=80,000 K Ν Λ = p 1* 17 IR
1 «^eF p <">· I ^ P
α \ LOG(N) 1 . 1 ' ' 4 ^ -3 ^>. 165«=·
O.OOOE-1 0 # <^ootr
1.000F-4 1 ,Λ^.^Γ P 1 · 1 *4F ?
?.OPO^-4 3.07ΡΓ
"ί,οη^Γ-ΰ 1·Λθ-η p 1 · I *· 7«- o
4,on^r-/i O.Q-^C-
ς,ηο^ρ-û 1 .*»/<7r P 1 . M **" r» °.^>*,?rr
6.00'°Ρ-Α ',^for o . 4 a i IT
7.00CF-4 1 ·"> I e " « " p î #<^^ηρ -->» P,?Q7r
8.O0OE-4 ! ·1^«- p ^•7^«=.«" P.116K
1 .OOOF--J 1. 7,7fi^c
?,oo^p-? 1 ·*?-"- P
4,noOF-i O.RQ^r ^ · 3 1 7F. 1 * > . 6 9 1Γ
1 8.or>aE 1 Λ,^ΡΓ
ft.OO^F-"» O.IPPC- i· R,"O?'· Ì '».^ΜΓ
B.OOOF-3 p.er>r 1 1 .«^optr
1»000E-? i.npr
1.200P-? 7 . 7 Q 1 t? 1 ■'.?71f Ϊ
1 .AO^'E-? 4 #o*ncr 1
Λ ,a?/jr 1

?.->\ ' *" 1 ? · c ? "*r 1
' ,17««·
Î · ! f»B»~ 1 *^»
(S.7?')r o Q . ">-»«=,».

~A . P R w r - ^.4°?'

?.^3*F 0

T s l 6 0 , 0 0 0 K ΝΛ =p N«=» = «

θ\ LOG(N) t7 IB
0.000E-1 1 · ? 4 6 Ε Ρ. o.Oftor
1.PV33F Ρ
i·οοοε-4 1.197Ε Ρ 9.043Γ
Ρ·966Ε
2.000E-4 1.14 7F ? P.R46*·"
3.000E-4 1«0POF Ρ β#6θΐΡ
4.000E-4 1 ·*31Ε;> Ρ.«Μ ΊΡ
«=»·0Ο0Ε-4 P»3?3F
6.000E-4 °·76ΟΓ;î
7#000E-4 π· ι "^ε-
8.000Ε-4 <">·?>θΛΕ 1
e.R9<SF 1 7,94 1 F
1.000Ε-3 P»?95F l 7,SQ4C
Ρ.000Ε-3
4·000Ε-3 7.?59F 1 6 . S 4 3E
6.0OOF-? 4·Λ71Ε
B.0OOF--» 4.o?7E 1 ?.763Γ
1.0Ο0Ε-? P***r\c j
1·?00Ε-? 1 ·*****"
I^AT 1 1 .037F
Β·Ϊ^Γ. ^
β·3θΐΕ
π

a \ LOG(N) 17
O.OOOF-l
^•B?6F
?.^00F-4 ^•R^PE
S.OOOF-4 *.94?E
7.500E-4 6·034Ε
6.100F
1 ·000Ε-3 6 . 1 16E
1 ·2«0Ε-3 6.076E
^.R^PE
1·*00Ε-3 e?.^?7F
?#000F-3
?,c;or)r-7 *.)*PF

-*#ooor-r* 4·399E
3.69RE
4.000E-3 3·059Ε
«=>»000F-3 2·^>?3Ε
1.349F
6·000Ε-3
R.604F
B.OOCF-3
1.0O0F-?
1ΦΡ*0*-Ρ

308 APPENDIX I . STARK PROFILES

T * H 0 , 0 0 0 K ΝΔ = ? NR = 7

O.OOOF-1 4.62«^E 1
1#ooor_a 4.6?-*F 1
?,ΟΠΠΓ-ή
?,onr;F-4 4 · 61 7E t
4.0ΟΟΓ-Λ 4.60RE 1
«n.OOOF-A 4.595E 1
6.0O0C-4 4.579E 1
7,OOCF-4
«,ΟΟ^Γ-Α 4.560E 1

t#0<->Oer--i 4.^39E 1
4 · 51 6E 1
?,OO^P-*»
4.467F 1
4.0O0F-7 4.21IE 1
6.0O0F-3 3.660E 1
R.OOOF-^
1 .OOCF-2 2.Q45E 1
2.266E 1
i,?OCP-? 1.70IE 1

1.400C-? 1 .270F* 1
Î #*nor-?> Q.604F Ό
7.4ÎPF n

Ts5,000 K NA = 3 NR = 4

α \ L O G ( N ) 14 15
5.185E 1
0.000E-1 6.938F 1 4.805E 1
1.000E-3 5.625F 1 4.075ε 1
3.429E 1
2.000E-3 4.154E 1
2.938E 1
3.000E-3 3·363F 1 2.^60^ 1
2.25RF 1
4.000E-3 2.885Ε 1 1·798E 1
5.000E-3 2.527F 1 1.466F 1
6.000E-3 2.21QF 1 9.287E 0
6.245E 0
θ·000Ε-3 1·738E 1 3.050E 0
1.589E 0
1.000E-2 1.414F 1
Q . 4 7 1 E --1
1.500E-2 8.950F 0 3 · 6 5 5 ε --1
1.870E--1
2.000E-2 6.128E 0

3.000E-2 2.967F 0

4.000E-2 1.458E 0

5 . 0 0 0 E - 2 8.383F--1

7·«^00Ε-? -*.042F-•1

1.000E-1 1.502E-•1

T=10,000 K NA = 3 NR = 4 16 17 18

a \ L O G ( N ) 14 15 4.124F 1 3.058Ε 1 2·49ΐε 1
O.OOOF-1 7.330F 1 5.413ε 1 3.969F 1 2.469ε 1
4.910F 1 3·οιοε 1
ι·οοοε-3 5.640F 1 4.040F 1 3.607F 1 2·406ε 1
3.356F 1 3·195Ε 1 2.879ε 1 2·312ε 1
2.00OE-3 4.019F 1 2·872ε 1 2.817E 1 2.699ε 1 2.198ε 1
3.000E-3 3.258F 1 2·509ε 1 1 2.499ε 1 2·072ε 1
4·000Ε-3 2.825Ε 1 2·495ε 2.298Ε 1
5·000Ε-3 2·496ε 1 2.218ε 1 1·942ε 1
1.772E 1 2.226Ε 1 2.107ε 1 1·690ε 1
6.000Ε-3 2.196E 1 1·450ε 1 1·770ε 1 1.46ΐε 1
8·000Ε-3 1.716F 1 9.310E 0 1·804ε 1 1·494ε 1 1.019E 1
1.000E-2 1.402F 1 6.377ε 0 7·290ε 0
1.500F-2 8.967F 0 3.162ε 0 1·49ΐε 1 ι.οοοε 1
2.000F-2 6·264Ε 0 1·624ε 0 4·066ε 0
3.000Ε-2 3.0Ö2F 0 9 · 5 4 9 ε --1 9.708Ε 0 7·043ε 0 2·497ε 0
4.000Ε-2 1.499ε 0 3 · 5 9 4 ε -•1 1·659Ε 0
5 · 0 0 0 Ε - 2 8·52ΐε--1 1 · 8 1 5 ε --1 6.637Ε 0 3·767ε 0
7 . 5 0 0 Ε - 2 3.029ε--1 2·217ε 0
1.000E-1 1.481E--1 3.363Ε 0 1·429Ε 0
6 . 2 2 Θ Ε -»1
1.843E 0
1.130E 0

4 . 5 5 1 E -•1

2 · 3 8 β Ε --1

A l . b . IONIZED HELIUM 309

T « 2 0 . 0 0 0 X NA « 3 NR * 4 Î6 17 18
4.238Ε 1 3.213E 1 2.523Ε 1
« \ LOGCN) 1* 4·052Ε 1 3.152E 1 2.499Ε 1
O.OOOE-l 5.599ε 1 3.631E 1 2.992ε 1 2·430ε 1
4·976Ε 1 3.179E 1 2.777ε 1 2.329ε 1
i·οοοε-3 3.993ε 1 2·786ε 1 2.546ε 1 2·206Ε 1
3·29ΐε 1 2·46?ε 1 2.323ε 1 2.074Ε 1
2·000ε-3 2.Θ21Ε 1 2.118E 1 1·94ΐε 1
3.000E-3 2·474Ε 1 2.19SE ! 1.768E 1 1.685E 1
2.192E 1 1.491E 1 1.458E 1
4·οοοε-3 1.753F 1 1.784F Î 1.008E 1 1·025Ε 1
1.438E 1 1.478F 1 7.09ΐε 0 7.386ε 0
5.000E-3 9·316ε 0 9.729ε 0 3.779ε 0
6.000Ε-3 6·482ε 0 6.736ε 0 2.186ε 0 4.127ε 0
3.262ε 0 3·449ε 0 2·514ε 0
β.οοοε-3 1·657ε 0 1.Β66Ε 0 1.386ε 0 Î.658E 0
ι·οοοε-2 9 . 6 3 5 Ε - ■1
3 . 5 5 1 F -•1 1·129Ε 0 5 . 8 7 0 Ε - »1
1.500E-2 1.775E- •1 4 . 4 4 3 Ε - •1
2·000ε-2 1 · 0 5 3 Ε -•1 2 . 3 0 2 Ε - •1
3·000ε-2
4.000Ε-2
5.000Ε-2
7.500Ε-2
1.O00E-1
1·250ε-1

ΤδΙίΟ,ΟΟΟ Κ ΝΑ = 3 ΝΒ * 4 16 17 18 19
2.443F 1 1·899F 1
θ \ LOG(N) Ie» 4.466F 1 3.280E 1 2.420Ε 1 1.890E 1
O.OOOF-1 4.?21F 1 3.21 IE 1 2.355Ε 1 1·863F 1
1.000F-3 6.336F 1 3.70 IE 1 3.031E 1 2.259Ε 1 1·820ε 1
2.000Ε-3 5.279F 1 3.190E 1 2.796ε 1 2.143E 1 1·765Ε 1
3.000Ε-3 3.973Ε 1 2.019F 1 1.70IE 1
4.000Ε-3 3.233Ε 1 P.775F 1 2.550E 1 1.893E 1 1·631E l
5.000Ε-3 2.791E 1 2.446F J 2 · 31 7E 1 1.652F 1 1.484E î
6.000Ε-3 2.464Ε 1 P.179F 1 2.107F 1 1.438E 1 1.337E 1
8.000F-3 2.182F 1 1.769F 1 1·757F 1 1.027E 1 1.014E 1
1 .000Ε-2 1.729F 1 1.466F 1 1Ì483E 1 7.51 IE 0 7.704Ε 0
1.500Ε-2 1 · 4 1 7Ε 1 9.681F 0 1.OlIF 1 4.267Ε 0 4.635ε 0
2.000Ε-2 9.179E 0 6.767F 0 7.164E 0 2.610E 0 2.975ε 0
3·000ε-2 6.479Ε 0 3.486E 0 3.840E 0 1.719E 0
4·000ε-2 3.270Ε 0 1.854E 0 2·199E 0
5.000Ε-2 1·620ε 0 1 ·378E 0
7.500Ε-2 9 . 2 5 4 Ε - •1 1 . 1 OSE 0 5 . 7 1 5 E - •1
1.000E-1 3.r*08F-•1 4 . P 3 6 E - •1
1.250E-1 1.627F- ■1 2 . 1 6 6 F - -1
9.579F-•2

Ta80,000 K NA s 3 NB « 4

<*\ LOG<N> 16 17 18 1 19
O.OOOE-l 4.785ε 1 3·424ε 1 2.468Ε 1
1.000E-3 4.44 IE 1 3.340Ε 1 2·444ε 1 1·787ε 1
2.000E-3 3.780F 1 3.125ε 1 2.375Ε 1 1.779E 1
3.000E-3 3.201E 1 2.854Ε 1 2.273Ε 1 1 ·756Ε 1
4.000E-3 2.767E 1 2.581E 1 2.152E 1 1.719E 1
5.000E-3 2.437E 1 2·33ΐε 1 2.023Ε 1 1.671E 1
6.000E-3 2.170ε 1 2·112ε 1 1.893ε 1 1.616E 1
8.000E-3 1.757E 1 1.754ε 1 1·649ε 1 1.555E 1
1.000E-2 1·454Ε 1 1·47βε 1 1·435ε 1 1·424ε 1
1.500E-2 9.592Ε 0 1.030E 0 1.293E 1
2.000E-2 6.760Ε 0 ι.009ε 1 7.571E 0
3.000E-2 3.496Ε 0 7·180ε 0 4.321E 0 ι.οοιε Î
4.000E-2 1.824Ε 0 3.85ΐε 0 2.630Ε
5.000E-2 1·07ΐε 0 2.174ε 0 1.719ε 0 7.736ε 0
7·500ε-2 3 . 9 9 9 ε - •1 1·343ε 0 4.769ε 0
5 . 4 3 6 Ε - -1 3.103ε 0
ι.οοοε-i 2 . 0 1 7 ε - .·

310 APPENDIX I. STARK PROFILES

T s l 6 0 , 0 0 0 K NA = 3 NB = 4

0,•000E--1 17 ie
1..000E--3
2<•000E--3 3.514E 1 2.460Ε 1
3,•ΟΟΟΓ--3 2.435Ε 1
4,•OOOE--3 3.418Ε 1 2.365Ε 1
•5,•OOOE--3 3.176E 1 2·262Ε 1
6.•OOOE--3 2·880Ε 1 2.141E 1
8,.OOOE--3 2.C590E 1 2.011E 1
1-.OOOE--2 2.332Ε 1 1.882E 1
1 • «500E--2 2.108E 1
2<•OOOE--2 1·748Ε 1 1·639Ε 1
3,.OOOF--2
4,•OOOE--2 1·473Ε 1 1·428Ε 1
5,•OOOE--2 1.007E 1 1·031Ε 1
7 •500E--2 7·203Ε 0 7.624Ε 0
4.384Ε 0
3·879Ε ο 2·666Ε 0

2.169E 0 1·736Ε 0

1·328Ε 0
5 . 2 8 0 Ε - •1

TS10.000 K NA , 3 NB * 5

«\ LOG(N) 14 15 16
8·038Ε 0 1·021Ε 1
0·000Ε-1 «5·695Ε 0 1·120Ε 1
9.933F 0 1·317Ε 1
2·000Ε-3 8.615F 0 1·350Ε 1 1·480Ε 1
1·630Ε 1
4.000E-3 1.375Ε 1 1.757E 1 1·556Ε 1
1.770E 1
6.000E-3 1·760Ε 1 1·758Ε 1 1·«562Ε 1
1.72BE 1 1.S50E 1
8.000E-3 1.925E 1 1.67AE 1
1.541F 1 1 ·<=?24Ε 1
9.000E-3 1·936Ε 1 1·48^Ε 1
1·390Ε 1 1.384F 1
1·000Ε-2 1·920Ε 1 1·238Ε 1 1.266E 1
1.094E 1 1·14«5Ε 1
l.îOOE-2 1.889F 1 7.916E 0 1·027Ε 1
«5.747Ε 0 7.715E 0
1·2Γ)0Ε-2 Î.838F 1 5.782Ε 0
1 ·400Ε-2 1.6S5F ! 3.090F 0
1.600E-2 1·485Ε 1 1.827F 0 3.33SE 0
1 ·179Ε 0
1·800Ε-2 1·308Ε 1 2·070Ε 0
S . 8 7 9 E - -1 1.383E 0
2·000Ε-2 1·137Ε 1 3.447Ε-»1
2.239Ε-•1 7 · 2 2 7 Ε -•1
2.500Ε-2 8·025Ε 0 1.562E-•1 4 . 3 5 6 Ε - »1

3.000Ε-2 5.7Î6E 0

4 . 0 0 0 Ε - 2 2·885Ε 0.

^.00OE-2 1·639Ε 0

6.000Ε-2 1.027E 0

8.00CE-2 4.910F- -1

1.000E-1 2.799Ε--1

1.200E-1 1·789F--1

1.400E-1 1·238F--1

1.600E-1 8.712Ε--2

1.POOE-1 6.^62F--2

A l . b . IONIZED HELIUM 311

T = 2 0 , 0 0 0 K NA ='■ 3 N B = 5

• \ L O G ( N ) 14 15 16 17 18
O.OOOE-l 4.822F O 6.955F 0 9.051F 0 1·174E 1
9·000Ε 0 1.015E 1 1.049F 1 1 » 192F 1
2.000E-3 7.891F 0 1.289E 1 1.241F 1 1.095E 1 1.233E 1
4.000E-3 1.323F 1 1·605Ε 1 1.438E 1 1.197E 1 1.268E 1
6.000E-3 1·736E 1 1.762E 1 1.546E 1 1.291E 1 1.278E 1
8.000E-3 1.925E 1 1.343E 1
1.786E 1 1.565E 1 1.272E 1
9·000Ε-3 1.944F 1 1.783F 1 1.564E 1 1.350E 1 1.259E 1
1 .OOOE-2 1.935F 1 1.760F 1 1 .«S47F 1 1.347E 1 1.239E 1
1.717^ 1 l.«M^E 1 1.333E 1
1 .100F-2 1·916Ε 1 1.583E 1 1.422F 1 1.214F 1
t .2H0F-2 1·879F 1 1·433Ε 1 1.308E 1 1.310E 1 1.151E 1
1 .400E-2 1.683F 1 1·186E 1 1.245E 1 1.077E 1
1.600E-2 1.520F 1 1·278Ε 1 1.067E 1 1·162E 1 9.978E 0
1.800E-2 1.342E 1 8.018F 0 1.073E 1
1·129E 1 9.815E 0 9.181E 0
2.000E-2 1·162E 1 8.161E 0 5.994E 0 7.704E 0 7.329E 0
5.907E 0 3.407E 0
2.500E-2 8.216E 0 3.116F 0 2.083F 0 5.988E 0 5.802E 0
1.812E 0 3.668E n 3.687E 0
3.000E-2 5 · 852E 0 1.374F 0 2.369E 0 2.453E 0
4.000E-2 2.903F 0 1.154E 0 7.055F-■1 1.717F 0
5.000E-2 1.627F 0 5.646E--1 4.209F«-1 1.623E 0
3.274F-1
6.000F-2 1.008F o 8 . 7 5 2 E -■1
8 · 0 0 0 Ε - 2 4.741F--1 2.112E-•1
l.OOOE-l 2.667E--1
1.200E-1 1.698F--1 1.467E-•1
1 .400E-1 1.178F--1
1.600E-1 8.100F--2
1.800E-1 6.05QF--2

ÏSIIO,000 K N A = 3 NR « 5 16 17 18
8.135E 0 1.029E 1
o\ LOG(N) 15 9.621E 0
O.OOOE-1 6.071E 0 9.387E 0 1 .016.E 1 1.047E 1
2.000E-3 8.302E 0 1·198E 1 1·135E 1 1.089E 1
4.000E-3 1.252E 1 1.429F 1 1.252E 1 1.131E 1
6.000E-3 1.601E 1 1 .«*64F 1. 1.327E 1
8.000E-3 1.782E 1 1.593E 1 1·345Ε 1 1·157E 1
9.000E-3 1.813E 1 1.600E 1 1.350E 1 1.162E 1
1.000E-? 1.816E 1 1·343Ε 1 1.160E 1
1.100E-2 1.800E 1 1.589E 1 1.326E 1
1.200E-2 1.763E 1 1.561E 1 1.270E 1 1.151E 1
1.400E-2 1.623E 1 1.470E 1 1·138E 1
1.600E-2 1.473E 1 1·193E 1 1.097E 1
1.800E-2 1.314E 1 1.353E 1 1.043E 1
2.000E-2 1.157E 1 1·105E I 9.809E 0
8.337E 0 1.227E 1 1.013E 1 9.147E 0
2.500E-2 6.013E 0 1.103E 1 7.973E 0 7.506E 0
3.000E-2 3.107E 0 8.254E 0 6.189E 0 6.065E 0
4.000E-2 1.778E 0 6.133E 0 3.753E 0 3.954E 0
5.000E-2 1 ·118E 0 3.416E 0
6.000E-2 5.374E-1 2.394E 0 2.665E 0
8.000E-2 3.083E-1 2.051E 0 1·623Ε 0 1.878E 0
1.OOOE-l 1.975E-1 1.334E 0 8 . 6 2 1 E -•1
1.200F-1 1·368E-1 6 . 7 1 9 E -•1
1.400E-1 3 . 0 6 4 E -»1

312 APPENDIX I. STARK PROFILES

T=80,000 K ΝΒ « 5

a \ LOG(N) 16 17 1θ
Ο.ΟΟθε-l 7.373ε 0 Θ·97ΘΕ 0 9·55βε 0
2.000E-3 θ·789ε 0 9.605Ε 0 9.754ε 0
4.000E-3 1·102ε 1
6.000E-3 ι·ΐ7ΐε 1 1.244ε 1 1.023ε 1
8.000E-3 1·43*Ε 1 1.339E 1 1·075ε 1
9·000Ε-3 1·*93Ε 1 1·365ε 1 ι·ιΐ2ε 1
1·000Ε-2 1·630ε 1 1.377ε 1 1.123E 1
Ϊ·100ε-2 1·643Ε 1 1.375E 1 1·127ε 1
1·200ε-2 1.636E 1 1.362E 1 1.125E 1
1·400ε-2 1.610E 1 1.118E 1
1·600Ε-2 1.309E 1 ι.οβτε 1
1.800E-? 1·517ε 1 1.232E 1 1.042E 1
2·000ε-2 1·396Ε 1 Î.142E 1 9.864ε 0
2·^00ε-2 1·26·5Ε 1 1.047E 1 9·25ΐε 0
3.000Ε-2 1·134Ε 1 θ·20βε 0 7#674ε 0
4·000Ε-2 8.435ε 0 6.335Ε 0 6.240Ε 0
5.000Ε-2 6·225Ε 0 3.777Ε 0 4»ΟΘ7Ε 0
6.000Ε-2 3.393C 0 2·370€ 0 2.751E 0
β·οοοε-2 2 · 00.2ε 0 1.587E 0 1·?3Χ 0
ι.οοοε-ι 1·2θ5ε 0 θ.2β3Ε-•1
6*354Ε« •1
3.71OC«»I

Tsl60,000 K ΝΑ Νθ » 5

α \ LOG(N) 17 18
ο.οοοε-ι 9.080Ε •0
2·000ε-3 θ·46ΐε 0 9.296ε 0
4·000ε-3 9.16βε 0 9.824Ε 0
6.000Ε-3 1.077ε 1
β·οοοε-3 1·239ε 1 Î.043E 1
1·352ε 1 1.090ε 1
9·000ε-3 1.385E 1 1·105ε 1
ι·οοοε-2 1.403Ε 1 1.114E 1
ι·ιοοε-2 1·406ε 1 1.116E 1
1·200ε-2 1·396ε 1 ι·ιî 2ε 1
1·400Ε-2 1 ·345Ε 1 ι·ο«9ε 1
1·600ε-2 1.266E 1 1.049ε 1
1.800E-2 1·174ε 1 9.972ε 0
2.000Ε-2 1·076ε 1 9.383ε 0
2·5θ0ε-2 θ.399ε 0 7.826ε 0
3·οοοε-ρ 6.44ΘΕ 0 6·379ε 0
4ά000ε-2 3.7Θ5Ε 0 4.174ε 0
*·οοοε-? 2.342ε 0 2.796ε 0
6.000Ρ-? 1.551E 0 1·9*5ε 0
7.973ε-1
β.οοοε-2

APPENDIX II

Coefficients for the Asymptotic
Holtsmark Profiles of
Hydrogen Lines

This appendix lists coefficients C„<„ for the asymptotic Holtsmark
profiles! <Svn ~ CW*-5'2 of hydrogen lines§ in the Lyman (n' = 1),
Balmer (n' = 2), Paschen (η' = 3), and Brackett (n' = 4) series.

n

rì 2 3 4 5 6

1 3.37E-6 1.80E-5 3.99E-5 7.84E-5 1.33E-4
2 1.28E-3 3.53E-3 5.96E-3 9.74E-3
3 5.10E-2 l.OOE-1 1.39E-1
4 7.58E-1 1.20E-0
% Corrections for electron broadening, etc., should be made as discussed in Section
IV.4a, and the units are as in Appendix I.
§ Coefficients for higher series members can be obtained from Eq. (418), and those for
analogous He II lines, etc., by dividing by 215/2, 315/2, . . ..

313

APPENDIX III

Fractional Intensity Widths of
Hydrogen and Ionized
Helium Lines

This appendix lists fractional widths <χ\/η from the line center, where
Stark profiles have 1/n of their peak intensities, for hydrogen [59b]
(Section AHI.a) and ionized helium [61b] (Section AHI.b) lines at
temperatures of 103Γ K and electron densities N = 10p cm"3. The αι/η are
in angstroms per cgs field strength unit. Some values have been omitted
from the original tabulations for the same reasons as in Appendix I.

314

Alll.a. HYDROGEN 315

AIILa. HYDROGEN

Lyman Alpha (1 , 2) Lyman Beta (1, 3)

TP al/2 al/4 al/8 TP al/2 ai/4 al/8
5 15
5 16 8.31E-05 1.71E-04 3.01E-04 5 16 2.10E-03 3.19E-03 4.47E-03
5 17 1.33E-04 2.76E-04 4.60E-04 5 17 2.14E-03 3.30E-03 4.68E-03
5 18 1.71E-04 3.33E-04 5.29E-04 5 18 2.14E-03 3.36E-03 4.83E-03
5 19 1.47E-04 2.94E-04 4.49E-04 10 15 1.89E-03 3.01E-03 4.49E-03
10 16
10 16 6.63E-05 1.37E-04 2.22E-04 10 17 2.16E-03 3.27E-03 4.52E-03
10 18 2.23E-03 3.40E-03 4.75E-03
10 17 1.13E-04 2.23E-04 3.75E-04 20 15 2.30E-03 3.56E-03 5.02E-03
10 18 1.72E-04 3.36E-04 5.48E-04 20 16 2.24E-03 3.54E-03
10 19 1.94E-04 3.65E-04 5.7QE-Q4 20 17
20 18
20 16 5.56E-Q5 1.09E-04 1.89E-04 20 19 2.21E-03 3.33E-03 4.55E-03
20 17 9.83E-05 1.96E-04 3.35E-04 30 15 2.28E-03 3.45E-03 4.76E-03
20 18 1.61E-04 3.18E-04 5.28E-04 30 16 2.39E-03 3.65E-03 5.09E-03
20 19 2.21E-04 3.97E-Q4 7.08E-04 30 17 2.46E-03 3.82E-03
20 20 2.27E-04 4.00E-04 6.76E-04 30 18 2.35E-03 3.72E-03
30 19
30 16 5.03E-05 9.74E-05 1.67E-04 40 15 2.22E-03 3.35E-03 4.56E-03
30 17 8.88E-05 1.79E-04 3.10E-04 40 16 2.30E-03 3.46E-03 4.75E-03
30 18 1.51E-04 3.03E-04 5.04E-04 40 17 2.42E-03 3.68E-03 5.09E-03
30 19 2.24E-04 4.01E-Q4 7.31E-04 40 18 2.56E-03 3.92E-03
30 20 2.59E-04 4.81E-04 7.83E-04 40 19 2.56E-03 3.98E-03

40 16 4.70E-05 8.88E-05 1.51E-04 TP 2.23E-03 3.37E-03 4.56E-03
40 17 8.21E-05 1.67E-04 2.91E-04 5 14 2.31E-03 3.47E-03 4.74E-03
40 18 1.44E-04 2.90E-04 4.84E-04 5 15 2.44E-03 3.69E-03 5.09E-03
40 19 2.23E-04 4.00E-04 7.36E-04 5 16 2.61E-03 3.97E-03
40 20 2.77E-04 5.12E-04 8.73E-04 5. 17 2.69E-03 4.23E-03
10 14
Lyman Gamma (1 , 4) 10 15 Lyman Delta (1. 5)
10 16
TP al/2 al/4 al/8 10 17 al/2 al/4 al/8
20 14
5 14 4.16E-04 2.93E-03 5.47E-03 20 15 6.02E-03 9.54E-03 1.32E-02
5 15 8.20E-04 4.31E-03 6.80E-03 20 16 6.49E-03 1.03E-02 1.46E-02
5 16 2.26E-03 5.13E-03 7.67E-03 20 17 6.61E-03 1.06E-02
5 17 2.49E-03 5.15E-03 7.73E-03 5.96E-03
30 14 9.81E-03
30 15
10 14 3.22E-04 6.72E-04 4.9OE-03 30 16 5.93E-03 9.45E-03 1.29E-02
10 15 6.15E-04 3.99E-03 6.49E-03 30 17 6.53E-03 1.03E-02 1.44E-02
10 16 1.64E-03 5.13E-03 7.64E-03 6.97E-03 1.11E-02
10 17 2.81E-03 5.74E-03 8.72E-03 40 14 6.85E-03 1.10E-02
10 18 2.68E-03 5.41E-03 40 15
40 16 5.80E-03 9.32E-03 1.26E-02
20 14 2.54E-04 4.95E-04 4.33E-03 40 17 6.46E-03 1.01E-02 1.39E-02
20 15 4.77E-04 3.47E-03 6.07E-03 7.10E-03 1.12E-02
20 16 9.88E-04 4.90E-03 7.43E-03 7.45E-03 1.18E-02
20 17 2.84E-03 5.96E-03 8.95E-03
5.70E-03 9.24E-03 1.24E-02
20 18 3.22E-03 6.27E-03 6.39E-Q3 1.00E-02 1.37E-02
7.11E-03 1.11E-02
30 14 2.25E-04 4.07E-04 3.95E-03 7.67E-03
30 15 4.21E-04 3.06E-03 5.79E-03 1.22E-02
30 16 8.37E-04 4.73E-03 7.26E-03
5.63E-03 9.18E-03 1.23E-02
30 17 2.72E-03 5.97E-03 8.94E-03 6.33E-03 9.92E-03 1.35E-02
30 18 3.45E-03 6.62E-03 7.09E-03 1.11E-02
7.79E-03 1.23E-02
40 14 2.07E-04 3.73E-04 7.04E-04
40 15 3.84E-04 8.54E-04 5.57E-03
40 16 7.45E-04 4.59E-03 7.13E-03
40 17 2.56E-03 5.95E-03 8.90E-03
40 18 3.58E-03 6.81E-03

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AHI.b. IONIZED HELIUM 317

AHI.b. IONIZED HELIUMf

P al/2 (1, 2) al/8 P al/2 (1, 3) al/8
al/4 al/4
14 4.60-7 1.31-6 T»5 14 Ó.45-5 1.46-4
15 8.36-7 8.21-7 2.35-6 T - 10 15 6.32-5 9.99-5 1.45-4
1.48-6 9.85-5
14 3.75-7 1.03-6 14 6.63-5 1.50-4
15 6.96-7 6.63-7 1.93-6 15 6.61-5 1.03-4 1.51-4
16 1.26-6 1.27-6 3.58-6 16 6.55-5 1.03-4 1.52-4
17 2.23-6 2.27-6 7.09-6 17 6.33-5 1.03-4 1.52-4
18 3.86-6 3.98-6 1.54-5 18 6.14-5 1.01-4 1.52-4
19 7.11-6 7.62-6 2.34-5 19 5.36-5 1.00-4 1.42-4
1.47-5 9.13-5
14 3.03-7 8.30-7 T - 20 14 6.73-5 1.53-4
15 5.67-7 5.29-7 1.61-6 T - 40 15 6.79-5 1.04-4 1.54-4
16 1.06-6 1.01-6 2.88-6 T - 80 16 6.81-5 1.05-4 1.57-4
17 1.91-6 1.88-6 5.76-6 T - 160 17 6.89-5 1.07-4 1.62-4
18 3.41-6 3.47-6 1.29-5 18 7.03-5 1.09-4 1.69-4
19 6.15-6 6.64-6 2.26-5 19 6.82-5 1.15-4 1.69-4
1.30-5 1.13-4
15 4.58-7 1.30-6 15 6.90-5 1.56-4
16 8.69-7 8.16-7 2.43-6 16 6.98-5 1.07-4 1.59-4
17 1.62-6 1.53-6 4.56-6 17 7.13r5 1.09-4 1.66-4
18 2.92-6 2.84-6 1.02-5 18 7.45-5 1.13-4 1.76-4
19 5.40-6 5.53-6 2.00-5 19 8.02-5 1.24-4 1.87-4
1.10-5 1.36-4
15 3.70-7 1.01-6 15 6.96-5 1.57-4
16 7.12-7 6.54-7 1.96-6 16 7.08-5 1.08-4 1.61-4
17 1.35-6 1.29-6 3.77-6 17 7.27-5 1.10-4 1.67-4
18 2.53-6 2.43-6 7.72-6 18 7.67-5 1.16-4 1.78-4
19 4.72-6 4.59-6 1.83-5 19 8.77-5 1.29-4
9.67-6 1.46-4 1.61-4
16 5.88-7 1.67-6 16 7.14-5 1.68-4
17 1.15-6 1.07-6 3.25-6 17 7.36-5 1.11-4 1.79-4
18 2.19-6 2.01-6 6.65-6 18 8.02-5 1.17-4
19 4.18-6 3.89-6 1.62-5 19 9.18-5 1.31-4
8.19-6 1.50-4

t These lines are designated here by (η', η), the principal quantum numbers of lower
and upper levels. The original tabulation [61b] also contains a1/16 and am2 values.

318 APPENDIX I I I . FRACTIONAL INTENSITY WIDTHS

"1/2 (2, 3) Jl/8 T =5 14 al/2 (2, 4) α1/8
T = 10 15
14 7.72-5 Ί/4 5.05-4 T = 20 2.18-3 Ί/4 4.37-3
15 1.56-4 9.36-4 14 2.17-3 4.45-3
1.64-4 T = 40 15 3.19-3
L4 6.21-5 4.09-4 2.99-4 T = 80 16 2.28-3 3.22-3 4.49-3
15 1.25-4 8.29-4 T = 160 17 2.29-3 4.60-3
16 2.55-4 1.24-4 1.29-3 18 2.34-3 3.32-3 4.80-3
17 4.37-4 3.01-4 1.67-3 2.38-3 3.38-3 5.02-3
18 6.27-4 6.53-4 1.96-3 14 2.24-3 3.51-3 4.91-3
9.50-4 15 3.63-3
14 4.91-5 1.24-3 1.80-4 16 2.33-3 3.49-3 4.52-3
15 9.81-5 6.78-4 17 2.35-3 4.64-3
16 2.10-4 9.32-5 1.19-3 18 2.43-3 3.36-3 4.87-3
17 3.94-4 2.24-4 1.66-3 19 2.57-3 3.44-3 5.40-3
18 6.20-4 5.60-4 2.03-3 2.66-3 3.60-3 5.79-3
9.15-4 15 2.29-3 3.84-3 5.15-3
1.27-3 5.19-4 16 4.14-3
1.06-3 17· 2.38-3 3.60-3 4.65-3
15 7.94-5 1.65-4 1.61-3 18 2.47-3 4.88-3
16 1.69-4 4.53-4 2.11-3 19 2.65-3 3.47-3 5.46-3
17 3.52-4 8.55-4 2.67-3 2.88-3 3.63-3 6.23-3
18 5.99-4 1.27-3 16 2.92-3 3.91-3 6.58-3
19 8.75-4 1.70-3 9.01-4 17 4.42-3
16 1.34-4 1.48-3 18 2.49-3 4.56-3 4.86-3
17 2.92-4 3.44-4 2.07-3 19 2.68-3 5.43-3
18 5.56-4 7.54-4 2.71-3 2.98-3 3.64-3 6.34-3
19 8.68-4 1.22-3 17 3.32-3 3.92-3 7.37-3
16 1.09-4 1.72-3 7.56-4 18 4.52-3
L7 2.45-4 1.37-3 19 2.71-3 5.13-3 5.41-3
18 4.98-4 2.47-4 1.98-3 3.07-3 6.43-3
19 8.39-4 6.61-4 2.70-3 3.58-3 3.93-3 7.83-3
1.15-3 4.59-3
1.69-3 5.52-3

A l l l . b . IONIZED HELIUM 319

P al/2 (2, 5) al/8 10 14 "1/2 (3, 4) al/8
T » 20 15
14 4.94-4 al/4 5.24-3 2.84-3 "1/4 1.61-2
15 1.74-3 5.96-3 14 4.92-3 1.99-2
14 3.67-4 3.27-3 5.04-3 15 8.18-3
15 1.30-3 4.20-3 5.96-3 16 2.48-3 1.16-2 1.51-2
"16 2.47-3 7.01-3 17 4.46-3 1.96-2
17 2.96-3 2.89-3 7.53-3 18 6.78-3 7.54-3 2.45-2
4.11-3 9.80-3 1.10-2 3.00-2
4.89-3 4.72-3 15 1.24-2 1.46-2 3.67-2
5.29-3 5.81-3 16 1.93-2
6.96-3 17 4.11-3 2.33-2 1.93- :
14 2.69-4 2.27-3 7.86-3 18 6.39-3 2.43-2
15 6.98-4 3.92-3 7.92-3 9.21-3 1.05-2 2.94-2
16 2.28-3 4.85-3 5.57-3 15 1.22-2 1.43-2 3.67-2
17 3.12-3 5.60-3 6.79-3 16 1.87-2
18 3.23-3 5.60-3 7.88-3 17 3.21-3 2.33-2 1.77-2
15 4.95-4 9.14-3 18 5.81-3 2.36-2
16 1.93-3 3.55-3 19 8.90-3 9.02-3 2.93-2
17 3.09-3 4.68-3 6.57-3 80 1.26-2 1.36-2 3.78-2
18 3.72-3 5.66-3 7.75-3 1.64-2 1.85-2
6.43-3 9.49-3 16 2.42-2 2.25-2
17 5.18-3 2.98-2 2.87-2
16 1.43-3 4.46-3 7.62-3 18 8.37-3 3.78-2
17 2.94-3 5.59-3 9.62-3 19 1.24-2 1.26-2
18 3.89-3 6.72-3 160 1.74-2 1.79-2 2.84-2
1.34-2 17 2.42-2 3.81-2
17 2.76-3 5.49-3 18 7.99-3 3.27-2
18 3.97^3 6.85-3 1.84-2 1.24-2 4.47-2
1.75-2 4.73-2
(2, 6) 5.00-2 2.24-2 2.44-2 5.28-2
5.90-2 2.34-2
T = 40 2.48-2 (3, 5) 4.47-2
4.72-2
17 6.00-3 9.45-3 14 2.27-2 T = 10 5.29-2
15 2.37-2 5.98-2
(2, 7) 16 2.55-2 3.30-2
2.78-2 3.48-2 4.68-2
T = 40 14 2.81-2 3.75-2 5.21-2
15 5.99-2
17 7.86-3 1.27-2 16 2.38-2 T = 20
17 2.57-2
(3, 5) 18 2.84-2 3.32-2
T = 80 15 3.12-2 3.49-2
16 3.79-2
16 2.56-2 3.73-2 17 4.29-2
17 2.85-2 4.31-2 18 4.44-2
18 3.26-2 4.97-2
T = 40
3.48-2
3.77-2
4.34-2
4.83-2

T - 160

17 2.85-2 4.27-2 5.81-2
18 3.34-2 5.10-2

APPENDIX IV

Stark Broadening Parameters^
and Profiles^ for Isolated
Neutral Atom Lines

AIV.a. ELECTRON IMPACT WIDTHS, SHIFTS, AND
ION BROADENING PARAMETERS

This section lists electron impact widths and shifts (in angstroms)
according to Section II.3c<* and ion broadening parameters A (alpha) and
B (beta) according to Eqs. (224) and (457), all for a nominal electron
density N = 1016 cm"3. (Electron impact widths and shifts are linear in N
as long as the lines are indeed isolated and there is no Debye shielding,
A scales as N1/4, and B is independent of N but proportional to T.) Also
given are the relative values (WA) of the widths calculated from the
adiabatic approximation as given by Eq. (263) expressed in percentages of
the widths calculated here, the percentage contributions (WS) of "strong"
collisions and (WQ) of quadrupole interactions, and the percentage errors
(DR) in the shifts due to the omission of some perturbing levels. For lines
not contained in this tabulation, estimates according to the effective
Gaunt factor approximation as discussed near the end of Section IV.4c

t See [356].
§ See [112].

320

A l V . a . IMPACT WIDTHS, SHIFTS, AND BROADENING PARAMETERS 321

or according to the high temperature limit [see Eq. (175)] will often be
sufficient, inserting Bates-Damgaard correction factors [42, 43] if neces-
sary. Equation (175) can also be used to estimate Debye shielding correc-
tions (see Section II.5a), namely
Aw + i Ad

2c\*kT) \mj 21+1

. { a + 1 ) [ „ . _ ( i + 1 , ] [ 0 ( ^ ) + r§^(^.)]

^»-4(v)+nl^(v)]}'

where wavelengths are in angstroms and vp = (Ne2/Tmc2)1/2 is the plasma
frequency converted to wavenumber units. The vu* are the relevant atomic
energy level differences, which can usually be obtained from the work of
Moore [44a] or [49]. Besides by element symbol and wavelength, the lines
are characterized by their running number in the work of Wiese et al. [39]
or [40], multiplet number from Moored work [44b] or [49], principal and
orbital quantum numbers of the optical electron in the two states, and by
multiplicity and total orbital angular momentum quantum numbers of
these states. (Wavelengths are averaged over the multiplets.)

3 2 2 APPENDIX I V . STARK BROADENING PARAMETERS AND PROFILES

ELEMENT TEMP. WIDTH SHIFT ALPHA BETA Λ<Α WS WQ DR

HE 5Ö4 (1 ) 5000 .121-03 -.299-04 .012 .24-02 35 65 6-35

MULT:2 UV 10000 .158-03 -.567-05 .010 .49-02 30 60 4
1S-2P lS-lp 20000 .199-03 .220-04 .008 .98-02 27 55 2 56

40000 .234-03 .460-04 .007 .20-01 26 49 2 30

HE 5Ò7 (2 ) 5000 .432-02 -.277-02 .153 .54-04 97 32 00
MULT:3 UV 10000 .409-02 -.216-02 .160 .11-03 115 28 00
1S-3P lS-lp 20000 .378-02 -.159-02 .169 .22-03 139 25 0 -1
40000 .342-02 -.111-02 .183 .43-03 173 23 0 -3

HE 5^2 (3 ) 5000 .179-01 -.112-01 .275 .16-04 99 31 0 0

MULT:4 UV 10000 .168-01 -.872-02 .290 .32-04 119 27 0 0
1S-4P lS-lp 20000 .152-01 -.647-02 .311 .64-04 I48 23 0 0
.341 .13-03 1θ7 21 0 0
40000 .135-01 -.460-02

HE 20581 (12 ) 5000 .364 -.412 .038 33. 72 87 0 -1
-.430 .033 65. 68 74 0 -1
MULT:IR 10000 .433 -.400 .029 .13>03 64 60 0 -1
2S-2P lS-lp 20000 .514 -.332 .026 .26+03 63 48 0 -2
40000 .590

HE 5017 (13 ) 5000 .378 -.250 .154 .44-■01 97 33 00
MULT:4 10000 .359 -.200 .160 115 28 00
2b-3P lS-lp 20000 .334 -.152 .169 .88-•01 138 26 00
40000 .306 -.111 .180 .18 170 24 0 -1
.35

HE 3965 (14 ) 5000 1.03 -.647 .275 .71-•02 99 31 0 0
MULT:5 10000 .966 -.504 .290 .14-•01 119 27 0 0
-.37t* .311 .28-•01 148 23 0 0
2S-4P lS-lp 20000 .877 -.266 .341 .56-•01 187 21 0 0
40000 .776

HE 7<i81 (21 ) 5000 .320 .374 .081 .33 74 81 0 0
.365 .382 .65 72 66 0 0
MULT:45 10000 .403 .355 .073 1.3 74 52 0 0
.419 .303 .068 2.6 80 41 0 0
2P-3S IP-IS 20000 .066

40000

HE 504Ö KZZ ) 5000 .625 .699 .134 .38-•01 73 74 0 0
MULT:47 10000 .705 .123 .77-•01 72 59 0 0
.685 .117 .15 76'46 0 0
2P-4S IP-IS 20000 .756 .611 .116 .31 85 36 0 0
40000 .760 .504

HE 4438 (23 ) 5000 1.41 1.51 .199 .12-•01 72 69 0 0
73 55 0 0
MULT:50 10000 1.57 1.43 .184 .24-•01 78 43 0 0
1.24 .177 .47-•01 39 33 0 0
2P-5S IP-IS 20000 1.65 .996 .179 .94-•01
40000 1.62

HE 6o78 (27 ) 5000 .423 .275 .146 .14 108 29 0 0
MULT:46 10000 .386 .233 .157 133 26 0 0
.196 .169 .27 165 25 0 0
2P-3D IP-ID 20000 .349. • 161 .181 .54 2 Q 4 25 0 0
4o000 .318 1.1

HE 4922 (28 ) 5000 2.30 1.02 .683 .61--02 197 20 0 0
MULT:48 10000 1.96 .773 .773 .12--01 261 17 0 0
.584 .885 .24·-01 352 15 0 0
2P-4D IP-ID 20000 1.63 .440 1.023 .49«-01 479 14 0 1
40000 1.35

A l V . a . IMPACT WIDTHS, SHIFTS, AND BROADENING PARAMETERS

ELEMENT TEMP. WIDTH SHIFT ALPHA BETA WA WS WQ DR

HE 4Ó88 ( 2 9 ) 5000 6.13 2.52 1.159 .17-02 2 l l 19 0 0
5.15 1.87 1.321 .33-02 282 16 0 0
MULT:51 10000 4.24 1.38 1.527 .67-02 385 14 0 0
2H-5D IP-ID 20000 3.45 1.01 1.783 .13-01 531 13 0 1
40000

HE 15084 ( 3 6 ) 5000 15.1 -10.2 .277 .38 99 33 00
MULT:IR 10000 14.3 -8.34 .289 .77 U 8 28 00
3S-4P lS-lp 20000 13.2 -6.55 .307 1.5 1(*4 26 00
40000 11.9 -4.95 .331 3.1 178 23 0 -1

HE 11013 (37 ) 5000 23.1 -14.3 .429 .66-01 lo3 30 00
MULT:70 10000 21.4 -11.2 .454 .13 125 26 00
3S-5P lS-lp 20000 19.3 -8.49 .491 .26 I56 23 00
40000 16.9 -6.24 .541 .53 200 20 00

HE 9t>03 (38 ) 5000 40.7 -24.0 .614 .23-01 lo7 29 00
-18.5 .656 .45-01 132 25 00
MULT:71 10000 37.3 -13.7 .716 .91-01 166 22 00
3S-6P lS-lp 20000 33.2 -9.94 .796 .18 215 19 00
40000 28.8

HE 19089 (42 ) 5000 37.3 18.1 .657 .35 186 22 0 0
14.0 .732 .71 2i*l 19 0 0
MULTIIR ΙΰΟΟΟ 32.3 10.7 .828 1.4 319 17 0 0
3P-4D IP-ID 20000 27.4 8.03 .945 2.8 427 16 0 0
40000 23.0

HE 1<:968 (43 ) 5000 54.3 23.1 1.149 .43-01 2o8 19 0 0
MULT:iR 10000 45.9 17.3 1.304 .86-01 277 17 0 0
12.8 1.501 .17 375 15 0 0
3P-5D IP-ID 20000 38.1 9.45 1.745 .34 515 13 0 0
40000 31.1

HE 11045 (44 ) 5000 94.5 37.7 1.742 .13-01 225 18 0 0
MJLT:ö8 lüOOO 79.0 27.8 1.992 .26-01 303 15 0 0
20.4 2.310 .52-01 414 14 0 0
3H-6D IP-ID 20000 64.8 14.9 2.706 .10 574 12 0 0
4U000 52.5

HE 18697 (49 ) * 5000 18.6 -5.39 .756 .42 262 17 0 0

MULT:l 10000 15.6 -3.35 .862 .84 351 17 0 0
-1.95 .978 1.7 467 17 0 0
3D-4F 1D-1F 20000 13.2 -1.10 1.101 3.4 613 18 0 1

40000 11.3

HE 1Ü830 (70 ) 5000 .493-01 -.518-01 .028 8.3 70 90 2 -5
MULT:l 10000 .601-01 -.557-01 .024 17. 64 80 1 -5
.020 33. 57 66 1 -6
2S-2P 3S-3P 20000 .755-01 -.540-01 .017 66. 52 55 1 -8
40000 .931-01 -.465-01

HE 3889 (71 ) 5000 .102 .744-01 .075 .50-01 67 52 0 0
.603-01 .070 .99-01 68 43 0 1
MULT:2 10000 .112 .46^-01 .067 .20 73 37 0 2
2S-3P 3S-3p 20000 .117 .348-01 .067 .40 82 32 0 3
40000 .117

HE 3188 (72 ) 5000 .313 .219 .134 .87-02 67 50 0 0
.127 .17-01 70 41 0 0
MULT:3 10000 .338 .176
.134 .125 .35-01 77 34 0 1
2b-4P 3S-3p 20000 .344 .101 .128 .69-01 90 29 0 2

40000 .332

324 APPENDIX I V . STARK BROADENING PARAMETERS AND PROFILES

ELEMENT TEMP. WIDTH SHIFT ALPHA BETA WA WS WQ DR
.522 68 17 0 0
HE 2915 (73 ) 5000 • 808 .112 .201 .30-02 72 39 0 0
MULT:ll UV 10000 .857 .311 .195 .59-02 80 33 0 0
2S-5P 3S-3p 20000 .857 .231 .195 .12-01 95 27 0 1
10000 • 811 1.07 .203 .21-01
.829
HE 2629 (71 ) 5000 1.79 .619 .285 .11-02 68 15 0 0
MULT:12 UV 10000 1.87 .155 .276 .27-02 73 37 0 0
2S-6P 3S-3p 20000 1.81 .215 .279 .51-02 83 31 0 0
10000 1.72 .231 .291 .11-01 100 26 0 1
.227
HE 7U65 (79 ) 5000 .180 .203 .067 .11 71 89 0 0
MULT:10 10000 .207 .102 .060 .87 72 76 0 0
2P-3S 3P-3S 20000 .235 • 116 .055 1.7 72 61 0 0
10000 .251 .390 .052 3.5 71 17 0 0
.335
HE 1713 (80 ) 5000 .312 .897 .115 .11-01 71 83 0 0
MULT:12 10000 .393 .891 .103 .88-01 72 69 0 0
• 808 .095 .18 73 51 0 0
2P-1S 3P-3S 20000 .137 .670 .092 .35 78 12 0 0
10000 .159

HE 1121 (81 ) 5000 .785 .171 .13-01 73 78 0 0
MULT:16 10000 .897 .155 .26-01 72 63 0 0
.111 .52-01 73 19 0 0
2P-5S 3P-3S 20000 .981 .111 .10 80 39 0 0
10000 1.01

HE 5Ö76 (85 ) 5000 .159 -.881-01 .061 .23 66 18 00
MULT:ll 10000 .170 -.553-01 .061 .16 69 12 0 -1
2P-3D 3P-3D 20000 .176 -.256-01 .059 .92 75 38 0 -2
10000 .177 -.501-02 .059 1.8 81 31 0-19

HE 1172 (86 ) 5000 1.11 .136 .589 .58-02 190 22 0 0
MULTrll 10000 1.26 .801-01 .650 .12-01 213 21 0 1
.611-01 .726 .23-01 316 19 0 3
2P-1D 3P-3D 20000 1.09 .519-01 .819 .17-01 117 17 0 5
10000 .927

HE 1026 (87 ) 5000 1.01 .511 .969 .16-02 195 21 00
.335 1.083 .33-02 251 19 00
MULT:18 10000 3.19 .231 1.225 .66-02 337 17 01
.175 1.103 .13-01 453 15 02
2P-5D 3P-3D 20000 2.96

10000 2.17

HE 12528 (91 ) 5000 1.83 3.09 .130 .51 65 50 0 0
MULT:IR 10000 5.26 2.31 .122 1.1 67 12 0 0
1.65 .119 2.1 73 36 0 1
3b-iP 3S-3p 20000 5.15 1.12 .120 1.3 83 31 0 1
10000 5.37
5.30
HE 9*61 (95 ) 5000 8.31 1.13 .203 .99-01 67 17 0 0
MULT:b7 10000 8.86 3.06 .191 .20 71 39 0 0
3b-5P 3S-3P 20000 8.88 2.21 .191 .10 80 33 0 0
40000 8.16 .201 .79 91 28 0 1
9.33
HE 8362 (96 ) 5000 15.6 7.23 .285 .35-01 68 15 0 0
MULT:o8 ΙϋΟΟΟ 16.3 5.38 .276 .70-01 73 37 0 0
3b-6P 3S-3p 20000 16.1 3.93 .279 .11 83 31 0 0
.293 .28
10000 15.0 100 26 0 1

A l V . a . IMPACT WIDTHS, SHIFTS, AND BROADENING PARAMETERS 325

ELEMENT TEMP. WIDTH SHIFT ALPHA BETA WA WS WQ QR
6.48 58 77 0 0
HE 21120 (97 ) bOOO 7.17 6.78 .089 4.6 53 64 0 0
MULT:IR 10000 8.76 6.47 .077 9.2 52 52 0 0
3P-4S 3P-3S 20000 10.1 5.62 .069 18. 54 42 0 0
40000 10.9 .065 37.

HE 12846 (98 ) 5000 7.61 8.33 .165 .40 71 77 0 0

MULT:1R 10000 8.85 8.26 .147 .81 68 62 0 0
7.44 .136 1.6 69 49 0 0
3P-5S 3P-3S 20000 9.85 6.17 .132 3.2 74 39 0 0
40000 10.3

HE lu668 (99 ) 5000 12.9 14.2 .238 .12 73 74 0 -1
13.9 .217 .23 72 60 0 -1
MULT:73 10000 14.7 12.4 .203 .46 74 47 0 -2
3P-6S 3P-3S 20000 16.0 10.3 .198 .92 80 38 0 -3
40000 16.5

HE 17002 (102) 5000 21.2 .993 .577 .32 185 24 01
MuLT:lR 10000 18.9 .216 .629 .64 233 22 0 lO
.624-01 .692 1.3 298 21 0 43
3H-4D 3P-3D 20000 16.7
.129 .769 2.6 384 20 0 29
40000 14.5

HE 1À969 (103) 5000 35.8 4.42 .967 .43-01 195 21 00
2.56
MULT:72 10000 31.0 1.65 1.077 .86-01 253 19 01
1.215 .17 333 18 02
3P-50 3P-3ü 20000 26.4 1.20
1.387 .34 446 16 05
40000 22.1

HE 19543 (105) 5000 12.2 8.91 .137 1.9 68 51 0 0
7.25 .128 3.9 70 42 0 0
MULTIIR 10000 13.2 5.56 .126 7.7 76 35 0 0
3u-4P 3D-3p 20000 13.6 4.11 .128 15. 88 30 0 1
40000 13.3

HE l«i985 (106) 5000 15.8 10.4 .205 .25 68 47 0 0
MULTIIR 10000 16.8 8.24 .196 .51 72 39 0 0
3Ü-5P 3D-3p 20000 16.8 6.27 .195 1.0 80 33 0 0
40000 16.0 4.65 .203 2.0 95 27 0 1

HE 1U997 (107) 5000 27.0 16.3 .286 .80-01 68 45 00
12.8 .276 .16 73 37 00
MULT:78 10000 28.3 9.59 .279 .32 83 31 00
7.10
3U-6P 3D-3p 20000 27.9 .294 .64 lOO 26 01
-2.77
40000 26.1 -1.22
-.300
HE 16666 (108) 5000 16.2 .650 .50 240 18 00
.131 .734 .99 317 19 00
MULT:IR 10000 13.7 .823 2.0 4i5 20 04
3U-4F 3Ü-3F 20000 11.8 .914 4.0 536 20 0-14
40000 10.2

LI 6708 (1 ) 5000 .991-02 -.435-02 .012 2.7 42 78 12-29
.010 5.3 34 73 6-3I
MULTU 10000 .138-01 -.445-02 .007 11. 26 65 .3-34
2S-2P 2S-2P 20000 .196-01 -.419-02 .006 21. 22 57 2-44
40000 .266-01 -.353-02

LI 3233 (2 ) 5000 .869-01 .679-01 .093 .13-01 75 45 00
.091 .25-01 82 37 01
MULT:2 10000 .893-01 .558-01 .092 .51-01 93 32 01
.094 .10 109 28 03
2b-3P 2S-2P 20000 .885-01 .438-01

40000 .853-01 .335-01

326 APPENDIX I V . STARK BROADENING PARAMETERS AND PROFILES

ELEMENT TEMP. WIDTH SHIFT ALPHA BEIΓΑ WA WS WQ DR
.165 .25·•02 76 43 0 0
LI 2741 (3 ) 5000 .282 .207 .164 .49-•02 84 35 0 0
• 166 .167 . 9 9 - •02 97 30 0 0
M Ü L T U UV 10000 .286 .128 .175 . 2 0 - •01 116 26 0 1
2S-4P 2S-2P 20000 .278 .957-01

40000 .262

LI 8126 (13 ) 5000 .151 • 180 .057 .53 74 93 0 0
• 200 .051 1.1 72 82 0 0
MULT:3 10000 .175 • 205 .046 2.1 70 67 0 0
• 188 .042 4.3 70 53 0 0
2P-3S 2P-2S 20000 .202
40000 .228

LI 4972 (14 ) 5000 .245 .290 .097 . 4 1 -•01 74 89 0 0
MULT:5 10000 .284 .311 .087 . 8 2 -•01 71 76 0 0
2P-4S 2P-2S 20000 .326 .305 .078 .16 70 61 0 0
40000 .358 .271 .073 .33 71 48 0 0

LI 4*73 (15 ) 5000 .537 • 622 .144 . 1 2 -•01 73 84 0 0
.642 .128 . 2 3 -•01 70 70 0 0
MULT: 10000 .630 .599 .115 . 4 7 - •01 68 56 0 0
.511 .108 . 9 3 -•01 70 44 0 0
2P-5S 2P-2S 20000 .723

40000 .785

LI 6104 (17 ) 5000 .213 -.112 .078 .12 73 42 00
-.698-01 .077 .23 80 37 00
MULT:<* 10000 .216 -.341-01 .077 .46 91 33 0 -2
-.104-01 .079 .93 105 31 0 - 10
2P-3D 2P-2D 20000 .214

40000 .208

LI 4o03 (18 ) 5000 1.72 • 106 .731 . 3 0 -•02 221 21 01
1.49 •642-01 .815 . 5 9 - •02 19 02
MULT:o 10000 1.27 .540-01 .921 . 1 2 - -01 2tì7 17 03
1.06 .520-01 1.050 . 2 4 - ■01 379 05
2P-4D 2P-2D 20000 507 16
40000

LI 4133 (19 ) 5000 4.80 .488 1.225 . 8 2 -•03 231 20 0 0
MULT: 10000 4.08 .305 1.383 . 1 6 -•02 305 17 0 1
.214 1.582 . 3 3 - •02 410 16 0 2
2P-5D 2P-2D 20000 3.41 .165 1·830 . 6 5 - •02 559 14 0 4
40000 2.81 3.23
2.07
LI 2b678 (20 ) 5000 6.09 1.09 .082 7.9 67 47 00
.440 .078 16. 70 41 01
MULT:IR 10000 6.52 .075 31. 75 38 04
.074 63. 82 35 0 14
3b-3P 2S-2P 20000 6.82

40000 7.00

LI 10792 (21 ) 5000 tf.37 3.09 .164 .15 75 43 0 0
MULT:IR 10000 4.4*1 2.41 .162 .30 83 35 0 0
1.77 .164 • 61 95 31 0 1
3b-4P 2S-2p 20000 4.35 1.25 .171 1.2 113 27 0 2

40000 4.12

LI 24465 KZZ ) 5000 7.40 3.47 .024 11· 20 69 0 0
4·41 .021 22. 18 62 0 0
MULT:IR 10000 9.02 4.79 .019 44· 17 52 0 0
4.51 .018 88. 18 44 0 0
3P-4S 2P-2S 20000 10.4

40000 11.4

LI 13558 (23 ) 5000 5.52 5.53 .124 .40 63 80 0 0
5.74 .108 .81 59 67 0 0
MULT:IR 10000 6.68 5.40 .096 1.6 57 54 0 0
4.63 .090 3.2 58 44 0 0
3P-5S 2P-2S 20000 7.79

40000 8.51

A l V . a . IMPACT WIDTHS, SHIFTS, AND BROADENING PARAMETERS 327

ELEMENT TEMP. WIDTH SHIFT ALPHA BETA WA WS WG DR

LI 279490(25 ) 5000 895. -699. .101 .66+04 73 48 00
MULT:IR 10000 934. -556. .097 .13+05 78 39 00
-405. .097 .26+05 87 34 00
3P-3D 2P-2D 20000 937. -278. .099 .53+05 loi 30 00
40000 914.

LI 17546 (26 ) 5000 25.8 .119 .711 .16 213 23 0 13
MULT:IR 10000 22.7
-.410 .783 .33 273 21 0 -5
3P-4D 2P-2D 20000 19.6 -.368 .873 .66 354 19 0 -7
40000 16.8 -.166 .983 1.3 465 18 0-24

LI 1*238 (27 ) 5000 42.2 3.77 1.220 .21-01 230 20 00
MULT:XR 10000 36.1 2.14 1.374
1.40 1.566 .42-01 303 18 01
3P-5D 2P-2D 20000 30.3 1.05 1.804 .85-01 405 16 02
40000 25.1
.17 549 15 05

LI 1*275 (29 ) 5000 14.6 11.1 .167 .84 75 45 0 0
MULT:iR 10000 14.9 8.94 .164 1.7 83 36 0 0
2u-4P 2D-2p 20000 14.6 6.83 .166 3.3 95 31 0 0
40000 13.9 5.03 .173 6.7 112 27 0 1

LI 1*929 (30 ) 6000 18.7 13.0 .254 .11 77 41 0 0
MULT:IR 1U000 18.8 10.3 .253 .23 86 34 0 0
3U-5P 2D-2P 20000 16.1 7.77 .261 .45 loi 29 O 0
40000 16.8 5.72 .276 .90 122 25 0 1

BE 2349 (1 ) 5000 .712-03 .933-03 ,010 .14 40 64 21 55
MULT:l UV 10000 .897-03 .932-03 .008 .28 35 62 14 62
2S-2P lS-lp 20000 .116-02 .863-03 .007 .55 31 59 9 75
40000 .150-02 .745-03 .005 1.1 27 54 5 97

BE lo62 (0 ) 5000 .464-02 .523-02 .047 .47-02 70 89 3 1
MULT: 10000 .563-02 .568-02 .041 .94-02 65 78 2 1
.035 .19-01 59 65 1 2
2S-3P lS-lp 20000 .689-02 .572-02 .031 .38-01 56 52 1 2
40000 .811-02 .529-02

BE 2651 (2 ) 5000 .569-03 -.394-03 .015 .19 70 92 5-53
MULT:2 UV 10000 •674-03 -.454-03
2S-2P 3P-3p 20000 .835-03 -.499-03 .013 .37 ó 6 88 4-52
40000 .105-02 -.482-03 .011 .74 60 79 2-53
.010 1.5 53 66 2-65

BE 3455 (3 ) 5000 .168-02 .119-03 .010 .42 39 66 11762
MULT: 10000 .222-02 .431-03 .008 .84 33 61 7234
1.7 28 55 4139
2S-2P IP-IS 20000 .289-02 .792-03 .006 3.3 26 49 3106
40000 .356-02 .116-02 .006
74 96 0 1
BE 3321 (4 ) 5000 .109-01 .129-01 .0^1 .53-01 74 87 0 1
MULT:l 10000 .123-01 .148-01 .038 .11 73 74 0 1
.034 .21 72 59 0 2
2P-3S 3P-3S 20000 .140-01 .158-01 .031 .43
40000 .158-01 .155-01

BE 8254 (5 ) 5000 .849-01 .997-01 .045 .69 75 94 0 -1
MULT:2 10000 .989-01 .111 .040
1.4 72 84 0 -1
2P-3S IP-IS 20000 .116 .115 .036 2.7 68 70 0 -1
40000 .135 .032 5.5 66 55 0 -1
.107

3 2 8 APPENDIX I V . STARK BROADENING PARAMETERS AND PROFILES

ELEMENT TEMP. WIDTH SHIFT ALPHA BETA wA WS WQ DR

BE 2495 (6 ) 5000 .698-02 -.356-03 .012 .48-01 24 68 5
MULT:3 UV 10000 .971-02 .679-03 .009 .96-01 19 62 2134
2P-3D 3P-3D 20000 .127-01 .179-02 .008 .19 16 56 1 53
40000 .152-01 .270-02 .007 .38 15 48 1 39

BE 4573 (7 ) 5000 .509-01 .536-01 .052 .76-01 68 87 2 0
MULT:3 10000 .633-01 .572-01 .044 .15 61 76 1 0
.037 .30 55 63 1 0
2P-3D IP-ID 20000 .793-01 .564-01 .033 .61 51 51 0 0
40000 .947-01 .510-01

BE 4408 (8 ) 5000 .136 .161 .086 .29-01 74 90 0 0
.174 .076 .58-01 71 77 0 0
MULT:4 10000 .158 .171 .069 .12 70 62 0 0
2P-4S IP-IS 20000 .182 .152 .064 .23 71 49 0 0
40000 .201

BE 3613 (9 ) 5000 .163 -.542-01 .053 .20-01 41 61 10

MULT:5 10000 .210 -.327-01 .044 .40-01 36 55 1 -1
-.133-01 .038 .81-01 33 49 0 -4
2P-4D IP-ID 20000 .256 .035 .16 33 43 0134
40000 .289 .535-03

BE 3736 (10 ) 5000 .334 .387 .133 .71-02 73 85 0 0
10000 .389 .401 .119 .14-01 70 71 0 0
MULT:6 .28-01 69 56 0 0
2P-5S IP-IS 20000 .443 .376 .108 .56-01 72 44 0 0
40000 .478 .322 .102

BE 3516 (11 ) 5000 .524 -.338 .129 .45-02 58 59 00
.90-02 55 50 00
MULT:7 10000 .626 -.269 .113 .18-01 54 44 0 -1
-.196 .102 .36-01 57 38 0 -2
2P-5D IP-ID 20000 .714 -.132 .097
40000 .763

B 2497 (4 ) 5000 .426-02 .507-02 .036 .24-01 75 96 0 0
MuLT:l UV 10000 .484-02 .582-02 .033 .48-01 74 89 0 0
2P-3S 2P-25 20000 .556-02 .628-02 .030 .97-01 73 75 0 0
40000 .631-02 .617-02 .027 .19 72 60 0 0

B 11661 (5 ) 5000 .123 .107 .029 2.5 57 84 5 1
.107 .024 4.9 48 74 3 1
MULT:IR 10000 .164 .960-01 .019 9.« 39 63 2 2
3S-3P 2S-2p 20000 .222 .774-01 .016 20. 34 54 1 3
40000 .287

B lo243 (6 ) 5000 .455 .374 .038 4.1 58 78 1 0
8.1 49 68 1 1
MuLT:IR ΙϋΟΟΟ .600 .353 .031 16. 42 59 0 1
.305 .025 32. 37 52 0 2
3P-3D 2P-2D 20000 .793 .245 .021
40000 1.00

B 15628 (7 ) 5000 1.29 1.52 .077 1.3 74 89 00
MULT:IR 10000 1.50 1.63 .069 2.6 71 76 00
1.59 .062 5.2 70 61 00
3P-4S 2P-2S 20000 1.72 1.41 10. 71 48 0 -1
40000 1.91 .057
1.74
B 8o68 (8 ) 5000 1.48 1.81 .126 .83-01 74 84 0 0
MULT:IR 1Ü000 1.71 1.71 .17 72 70 0 0
1.47 .113 .33 71 56 0 0
3H-5S 2P-2S 20000 1.93 .103 .66 75 44 0 0
40000 2.05 .098

A l V . a . IMPACT WIDTHS, SHIFTS, AND BROADENING PARAMETERS

ELEMENT TclMP. WIDTH SHIFT ALPHA BETA ,vA WS WQ DR

C lb57 (5 ) 5000 .154-02 .180-02 .034 .76-02 75 96 0 0
MULT:2 UV 10000 .174-02 .207-02 .031 .15-01 74 88 0 0
2P-3S 3P-3P 20000 .200-02 .223-02 .028 .30-01 73 75 0 0
40000 .226-02 .218-02 .025 .60-01 72 60 0 0

C 1931 (6 ) 5000 .193-02 .234-02 .033 .13-01 76 97 0 1
MULT:33 UV 10000 .221-02 .270-02 .030 .25-01 75 90 0 1
2P-3S 10-lp 20000 .254-02 .2^4-02 .027 .50-01 73 78 0 1
40000 .291-02 .294-02 .025 .10 72 63 0 1

C 2479 (8 ) 5000 .317-02 .381-02 .033 .27-01 76 97 0 0
MULT«.61 UV 10000 .361-02 .438-02 .030 .53-01 75 90 0 0
2P-3S IS-lp 20000 .417-02 .477-02 .027 .11 73 78 0 0
40000 .480-02 .474-02 .024 .21 71 63 0 0

C 1279 (10 ) 5000 .276-02 .328-02 .049 .16-02 73 87 2 2
MULT:6 UV 10000 .321-02 .354-02 .044 .31-02 70 76 1 3
2P-3D 3P-3F 20000 .379-02 .356-02 .039 .62-02 67 63 1 3
40000 .437-02 .329-02 .035 .12-01 65 51 1 5

C 1278 (11 ) 5000 .248-02 .289-02 .046 .17-02 71 88 2 3
MULT:7 UV 10000 .299-02 .313-02 .040 .34-02 66 77 2 3
2P-3D 3P-3D 20000 .364-02 .314-02 .035 .68-02 61 64 1 3
40000 .431-02 .293-02 .031 .14-01 58 52 1 5

C 1261 (13 ) 5000 .429-02 .516-02 .061 .10-02 75 85 1 0
MULT:9 UV 10000 .495-02 .551-02 .055 .20-02 73 74 1 0
2P-3D 3P-3P 20000 .569-02 .546-02 .049 .41-02 71 61 1 0
40000 .636-02 .497-02 .045 .82-02 71 49 1 1

C 1482 (14 ) 5000 .288-02 .357-02 .044 .29-02 72 84 2 8
MULT:34 UV 10000 .341-02 .381-02 .039 .59-02 68 73 2 8
2P-3D I D - I D 20000 .407-02 .378-02 .034 .12-01 64 61 1 10
40000 .472-02 .352-02 .030 .24-01 62 49 1 14

C 1463 (17 ) 5000 .314-02 .346-02 .043 .27-02 68 87 3 4
MULT:37 UV 10000 .387-02 .373-02 .037 .54-02 62 76 2 4
2P-3D 1D-1F 20000 .484-02 .376-02 .031 .11-01 55 64 1 5
40000 .582-02 .352-02 .027 .22-01 51 52 1 7

C 1459 (18 ) 5000 .301-02 .296-02 .038 .30-02 61 85 3 5
MULT:38 UV 10000 .391-02 .318-02 .031 .60-02 53 74 2 5
2P-3D 1D-Ip 20000 .506-02 .323-02 .026 .12-01 1+6 63 1 5
tiOOOO .618-02 .308-02 .022 .24-01 i+2 52 1 7

C 1752 (20 ) 5000 .431-02 .429-02 .038 .52-02 62 85 3 5
MULT:62 UV 10000 .562-02 .460-02 .031 .10-01 53 75 2 5
2P-3D IS-lp 20000 .729-02 .465-02 .026 .21-01 i+6 63 1 5
40000 .891-02 .443-02 .022 .41-01 i+2 52 1 7

C 1280 (21 ) 5000 .638-02 .759-02 .069 .82-03 74 92 0 0
MULT:b UV 10000 .734-02 .840-02 .062 .16-02 72 81 0 0
2P-4S 3P-3P 20000 .842-02 .854-02 .056 .33-02 71 66 0 0
40000 .935-02 .788-02 .052 .65-02 72 52 0 0

330 APPENDIX I V . STARK BROADENING PARAMETERS AND PROFILES

ELEMENT TEMP. WIDTH SHIFT ALPHA BETA WA WS WQ DR
73 93 0 0
1467 (23 ) 5000 .615-02 .721-02 .061 .16-02 69 82 0 0
MULT:36 UV 10000 .729-02 .794-02 .053 .31-02 65 68 0 0
2P-4S ID-lp 20000 .878-02 .807-02 .046 .63-02 62 54 0 0
.103-01 .746-02 .041 .13-01
40000

1764 (24 ) 5000 .889-02 .104-01 .061 .27-02 73 93 0 0
.105-01 .115-01 .053 .54-02 69 82 0 0
MULT: 10000 .127-01 .117-01 .046 .11-01 65 68 0 0
.149-01 .108-01 .041 .22-01 62 54 0 0
2P-4S IS-lp 20000
40000

1364 (25 ) 5000 .283-01 .286-01 .113 .36-03 73 62 0 0
MULT:39 UV 10000 .313-01 .264-01 .104 .72-03 74 50 0 0
2P-4D ID-ID 2U000 .334-01 .225-01 .099 .14-02 78 42 0 1
.341-01 .182-01 .098 .29-02 86 35 0 1
40000

C 10695 (27 ) 5000 .557-01 .132-01 .007 6.3 19 72 12 19
MULT:l 10000 .832-01 .117-01 .005 13. 14 69 5 21
.931-02 .004 25. 11 63 2 25
3b-3P ID-ID 20000 .121 .695-02 .003 51.
40000 .163 9 56 1 35

9o41 (28 ) 5000 .509-01 .408-01 .021 2.1 49 80 9H
.701-01 .411-01 .016 4.1 40 73
MULT:2 10000 .978-01 .382-01 .013 8.3 32 64 5 12
3b-3P 3P-3S 20000 .130 .335-01 .010 17. 27 55 3 13
40000 2 17

9ü86 (29 ) 5000 .634-01 .664-01 .032 1.1 65 87 4 3
MULT:3 10000 .802-01 .703-01 .027 2.2 58 77 3 3
3b-3P 3P-3p 20000 .105 .674-01 .022 4.4 49 65 2 3
4U000 .133 .589-01 .019 8.7 44 55 1 5

11330 (30 ) 5000 .143 .165 .041 1.5 71 91 2 2
.168 .183 .036 3.0 68 81 2 2
MULT:9 IOOOO .204 .186 .031 6.0 63 67 1 3
.243 .173 .028 12. 59 54 1 4
3b-3P IP-ID 20000
HUOOO

8335 (31 ) 5000 .109 .129 .048 .45 73 92 2 1
.127 .144 .043 .90 71 81 1 1
MULTUO ioooo .148 .147 .038 1.8 68 67 1 1
.171 .136 .035 3.6 66 53 1 1
3S-3P IP-IS 20000 41 75 6 2
40000 33 67 3 2
27 59 2 2
4Ö95 (32 ) 5000 .742-01 .428-01 .033 .85-01 25 50 1 3
MULT:3.OI IOOOO .104 .446-01 .025 .17
3S-4P 3P-3D 20000 .140 .436-01 .020 .34
.172 .394-01 .017 .68
40000

4ö22 (33 ) 5000 .868-01 .355-01 .027 .83-01 33 73 5 -8
• 122 .389-01 .021 .17 26 66 2 -7
MULT:5 10000 .163 .399-01 .017 .33 22 58 1 -7
.199 .366-01 .015 .66 20 49 1 -9
3b-4P 3P-3S 20000
40000

4770 (34 ) 5000 .983-01 .986-01 .061 .44-01 64 85 3 0
.124 .104 .051 .87-01 57 74 2 0
MULT:6 10000 .157 .994-01 .043 .17 51 61 1 0
3S-4P 3P-3P 20000 .188 .871-01 .038 .35 47 50 1 0
40000

A l V . a . IMPACT WIDTHS, SHIFTS, AND BROADENING PARAMETERS 331

ELEMENT TEMP. WIDTH SHIFT ALPHA BETA WA WS WQ DR
32 73 6 3
5360 (35 ) 5000 .890-01 .392- 01 .025 .13 26 66 3 3
.126 .424- 01 .019 .27 21 58 2 3
MULT:ll 10000 .168 .430- 01 .016 .54 20 49 1 4
• 206 .399- 01 .013 1.1
3b-4P IP-lp 20000

40000

5052 (36 ) 5000 .139 .154 .073 .41- 01 70 87 2 0
.169 .163 .063 .82- 01 64 75 1 0
MULT:12 10000 .207 .158 .054 .16 59 62 1 0
.243 .138 .048 .33 56 50 1 0
35-4P IP-ID 20000
40000

4932 (37 ) 5000 .226 .262 .093 .25-•01 73 84 1 0
.265 .271 .082 .50-•01 69 70 0 0
MULT:13 10000 .306 .253 .074 .99-•01 67 56 0 0
.336 .214 .069 .20 69 45 0 0
3b-4P IP-IS 20000
40000

4o71 (30 ) 5000 .222 .490- 01 .022 .41-•01 18 69 5 4
10000 .315 .571- 01 .017 .82-•01 14 62 2 3
MULT:14 .411 .621- 01 .014 .16 12 55 1 3
3b-5P IP-lp 20000 .485 .614- 01 .012 .33 11 46 1 3
40000

4*69 (39 ) 5000 .314 .320 .104 .11-•01 65 82 2 0
U000 .395 .326 .088 .22-•01 58 70 1 0
MULT:16 .488 .303 .075 .44-•01 53 57 1 0
3b-5P lP-lü 20000 .563 .260 .067 .88-•01 51 47 1 1
40000
.193
1U124 (42 ) 5000 .155 .210 .046 .85 71 90 29
MULT: 10000 .186 .211 .0^0 1.7 66 80 19
3P-3D IP-IP 20000 .231 .196 .034 3.4 60 67 1 11
40000 .283 .029 6.8 55 55 1 14
.242
11755 (43 ) 5000 .213 .251 .0^5 1.3 70 84 1 4
10000 .262 .238 .039 2.7 64 73 1 4
MULT:24 20000 .329 .209 .033 5.3 57 62 0 5
3P-3D 3D-3F 40000 .405 .028 11. 52 52 0 8

11641 (44 ) 5000 .195 .221 ,043 1.4 68 87 26
MuLT:25 10000 .240 .233 .037 2.8 62 76 16
3P-3D 3D-3D 20000 .305 .226 .031 5.5 55 64 17
40000 .380 .202 .026 11. 49 54 0 10

1x664 (45 ) 5000 .343 .401 .058 .87 73 83 1 0
MULT:29 10000 .408 .414 .051 1.7 69 71 0 0
3P-3D 3S-3P 20000 .489 .390 .044 3.5 65 59 0 0
40000 .573 .336 .039 6.9 62 50 0 1
71 81 1 0
1*591 (46 ) 5000 .390 .440 .056 1.1 66 70 0 0
MULT:30 10000 .472 .447 .048 2.3 61 59 0 1
3P-3D 3P-3p 20000 .576 .414 .042 4.5 57 50 0 1
40000 .685 .352 .036 9.0

lo690 (47 ) 5000 .344 .243 .025 6.6 45 78 4 14
MuLT:lR 10000 .503 .230 .019 13. 34 71 2 16
3P-30 ID-lF 2J000 .710 .206 .015 26. 27 62 1 17
40000 .927 .182 .012 53. 23 54 0 21

332 APPENDIX I V . STARK BROADENING PARAMETERS AND PROFILES

ELEMENT TEMP. WIDTH SHIFT ALPHA BETA WA WS WQ DR
.533 73 93 0 1
C 1AÖÖ6 (49 ) 5000 .448 .589 .063 .77 71 82 0 1
MULT:<d3 10000 .523 .596 .056 1.5 67 67 0 2
3P-4S 3Ü-3P 20000 .618 .547 .050 3.1 65 54 0 2
40000 .718 .044 6.2

C 65ö6 (50 ) 3000 1.16 -.659 .162 .24-01 64 36 00
MULT:22 10000 1.15 -.483 .163 .48-01 95 32 0 -1
3H-4D I P - I P 20000 1,13 -.333 .165 .97-01 108 31 0 -2
40000 1.09 -.220 .169 .19 125 29 0 -4

N 1*00 (2 ) 5000 .605-03 .706-03 .031 .30-02 76 97 0 -2
MuLT:l UV 10000 .690-03 .812*03 .028 .60-02 75 90 0 -2
2P-3S 4S-4P 20000 .795-03 .881-03 .025 .12-01 73 77 0 -2
40000 .908-03 .867-03 .023 .24-01 72 62 0 -2

N 1493 (3 ) 5000 .109-02 .130*02 .033 .52-02 76 97 0 0

M U L T : 4 uv loooo .125-02 .149-02 .029 .10-01 75 90 0 0
2P-3S 2Ü-2P 20000 .144-02 .162*02 .027 .21-01 73 77 0 0
.024 .41-01 72 62 0 0
40000 .164-02 .161-02

N 1744 (4 ) 5000 .149-02 .179-02 .033 .82-02 76 97 0 0

MULT:9 UV 10000 .l70-02 .206-02 .030 .16-01 75 90 0 0
2P-3S 2P-2P 20000 .196-02 .224-02 .027 .33-01 73 77 0 0

40000 .224-02 .223-02 .024 .66-01 72 62 0 0

N 1*43 (5 ) 5000 .693-03 .825*03 .031 .32-02 76 97 0 0
MULTlb UV 10000 .791-03 .947-03 .028 .64-02 75 90 0 0
2P-3S 2D-2D 20000 .910-03 .103-02 .026 .13-01 73 77 0 0

40000 .104-02 .102-02 .023 .26-01 72 62 0 0

N 1412 (6 ) 5000 .898-03 .108*02 .032 .47-02 76 97 0 0

MULT:10 UV 10000 .102-02 .124-02 .029 .93-02 75 90 0 0
2P-3S 2P-2D 20000 .118-02 .135-02 .026 .19-01 73 77 0 0

40000 .134-02 .134-02 .023 .37-01 72 62 0 0

N 1166 (9 ) 5000 .240-02 ·2β1-02 .049 .99-03 72 87 2 2

MULTI6 UV 10000 .279-02 .305-02 .044 .20-02 69 76 1 3

2/P-3D 2D-2F 20000 .329-02 .306-02 .039 .40-02 66 63 1 3
40000 .381-02 .284-02 .035 .79-02 64 51 1 5

N 1164 (10 ) 5000 .262-02 .306-02 .051 .91-03 72 85 2 2
MULT:7 UV 10000 .306-02 .327-02 .046 .18-02 69 74 1 2

2P-3D 2D-2D 20000 .362-02 .324-02 .040 .36-02 66 61 1 3
40000 .417-02 .297-02 .036 .73-02 64 50 1 4

N 1^20 (11 ) 5000 .281-02 .353*02 .049 .15-02 74 89 2 5

MULT:12 UV 10000 .325-02 .388-02 .044 .30-02 72 78 1 6
2P-3D 2P-2P 20000 .377-02 .397-02 .040 .60-02 69 65 1 6

40000 .430-02 .377-02 .036 .12-01 68 52 1 9

N loib (12 ) 5000 .292-02 .352-02 .050 .14-02 73 87 2 3

MULT: 10000 .345-02 .380-02 .044 .29-02 70 76 1 3

2P-3D 2P-2F 20000 .410-02 .380-02 .038 .58-02 66 63 1 3

40000 ,476-02 .352*02 .034 .12-01 63 51 1 5

A l V . a . IMPACT WIDTHS, SHIFTS, AND BROADENING PARAMETERS 333

ELEMENT TEMP. WIDTH SHIFT ALPHA BETA WA WS WQ DR

N 1^11 (13 ) 5000 .331-02 .389-02 .051 .13-02 72 85 2 2
MULT:13 UV 10000 .388-02 .415-02 .046 .26-02 69 74 1 2
2P-3D 2P-2D 20000 .459-02 .411-02 ,040 .52-02 66 61 1 3
40000 .529-02 .376-02 .036 .10-01 64 50 1 4

N 1177 (14 ) 5000 .431-02 .513-02 .063 .64-03 74 93 0 0
MULT: 10000 .500-02 .570-02 .057 .13-02 72 83 0 0

2P-4S 2D-2P 20000 .584-02 .584-02 .051 .26-02 69 68 0 0
40000 .664-02 .542-02 .046 .52-02 68 53 0 0

N 1027 (15 ) 5000 .548-02 .653-02 .063 .92-03 74 93 0 0
M U L T U 1 UV 10000 .636-02 .724-02 .057 .18-02 72 83 0 0
2P-4S 2P-2P 20000 .742-02 .742-02 .051 .37-02 69 68 0 0
40000 .844-02 .689-02 .046 .74-02 68 53 0 0

N 1101 (19 ) 5000 .873-02 .105-01 .081 .29-03 70 88 0 8
MULT: 10000 .108-01 .111-01 .069 .59-03 63 76 0 8

2P-5S 2D-2P 20000 .134-01 .109-01 .059 .12-02 57 62 0 10
40000 .158-01 .996-02 .052 .24-02 54 50 0 13

N 8692 (21 ) 5000 .336-01 .296-01 .022 1.4 54 83 88
MULT:1 10000 .448-01 .311-01 .017 2.8 46 75 59
3b-3P 4P-4U 20000 .613-01 .304-01 .014 5.6 37 65 3 10
40000 .805-01 .280-01 .011 11. 32 56 2 12

N 8<U2 (22 ) 5000 .351-01 .354-01 .026 .96 62 86 66
MULT:2 10000 .442-01 .382-01 .022 1.9 55 78 47
3S-3P 4P-4P 20000 .581-01 .382-01 .018 3.9 47 66 38
40000 .748-01 .353-01 .015 7.7 i+1 56 2 10

N 7452 (23 ) 5000 .396-01 .463-01 .034 .51 71 90 4 3
MULT:3 10000 .477-01 .508-01 .030 1.0 66 81 3 3
3b-3P 4P-4S 20000 .593-01 .515-01 .025 2.1 59 68 2 4
40000 .729-01 .479-01 .022 4.1 54 56 1 5

N 9Ô95 (24 ) bOOO .549-01 .525-01 .027 1.3 60 85 6 4
MULT:7 10000 .715-01 .551-01 .022 2.6 52 76 4 4
43 65 2 5
3b-3P 2P-2D 20000 .958-01 .532-01 .018 5.1 37 55 1 6
40000 .124 .473-01 .015 10.

N 8ol6 (25 ) 5000 .596-01 .653-01 .034 .75 68 89 4 2
MULT:8 1Ü000 .728-01 .709-01 .030 1.5 62 80 3 3
3b-3P 2P-2P 20000 .923-01 .705-01 .025 3.0 55 67 2 3
40000 .115 .638-01 .021 6.0 49 55 1 4

N 4*56 (28 ) 5000 .496-01 .112-01 .011 .10 16 68 9 13
10000 .707-01 .139-01 .009 .20 13 64 4 10
MULT:4 11 57 29
3S-4P 4P-4D 20000 .951-01 .160-01 .007 .41
40000 .117 .164-01 .006 .82 10 50 19

N 4*22 (29 ) 5000 .525-01 .191-01 .020 .66-01 27 71 7 3
MULT:5 10000 .745-01 .216-01 .016 .13 21 65 3 3
3b-4P 4P-4P 20000 .998-01 .230-01 .012 .26 18 58 2 2
40000 .122 .223-01 .011 .53 16 50 1 3

334 APPENDIX I V . STARK BROADENING PARAMETERS AND PROFILES

ELEMENT TEMP, WIDTH SHIFT ALPHA BETA WA WS WQ DR

N 4146 (30 ) 5000 •616-01 .594- 01 .054 .29-01 61 83 4 1
MULT;ò 10000 •806-01 .620-01 .044 .58-01 53 73 2 1
.599- 01 .037 .12 46 61 2 1
3S-4P 4P-4S 20000 • 104 .532- 01 .032 .23 42 51 1 1
40000 .126

4928 (31 ) 5000 .757-01 -.439- 01 .038 .67-01 47 71 4 -4
39 62 2 -5
MULT:9 10000 .102 -.363- 01 .030 .13 34 55 1 -8
.025 .27 32 47 1- 15
3S-4P 2P-25 20000 .132 -.259- 01 .022 .53

40000 .158 -.162- 01

N 9Ü50 (33 ) 5000 .164 .199 .054 .41 75 80 1 2
MULT:15 10000 .193 .205 .048 • 81 71 69 0 2
3P-3D 2S-2P 20000 • 226 .194 .043 1.6 68 58 0 3
40000 .261 .169 .038 3.2 67 49 0 4

N 1U117 (34 ) 5000 .184 .219 .051 .63 73 81 1 2
MULT:18 10000 .221 .224 .044 1.3 68 70 1 3
.209 .038 2.5 63 59 0 3
3P-3D 4D-4F 20000 • 268 .180 .034 5.0 60 50 0 5
4Ü000 .317

N 9b29 (35 ) 5000 .190 .228 .053 .54 73 81 1 3
MULT:19 10000 .225 .235 .046 1.1 69 70 1 3
.222 .041 2.1 65 58 0 4
3P-3D 4D-4D 20000 .268 .193 .036 4.3 63 49 0 7
4U000 .314

N 1U882 (36 ) 5000 .215 .249 .050 .78 71 81 1 3
MULT: 10000 .257 .255 67 70 1 3
.240 .044 1.6 62 59 0 4
3P-3D 4P-4F 20000 .311 .208 .038 3.1 59 50 0 6
40000 .369 .033 6.3

1U708 (38 ) uOOO .186 .219 .047 .82 71 86 1 5
• 224 .231 66 74 1 5
MULT: 10000 .276 .223 .041 1.6 60 62 1 7
.334 .199 .035 3.3 56 52 0 9
3P-3D 4P-4P 2Û000 .030 6.6
40000 .258
.266
N 1Ü525 (39 ) 5000 .221 .253 .052 .66 72 81 1 3
MULTI28 10000 .260 .222 .046 69 70 1 4
.040 1.3 65 58 0 5
3P-3D 4P-4D 20000 .310 .252 .036 2.6 62 49 0 7
40000 .362 .255 5.3
.236
12350 (40 ) 5000 .231 .203 .043 1.4 67 83 25
MULTI34 10000 .291 59 72 15
.366 .036 2.8 52 61 17
3P-3D 4S-4p 20000 .374 .360 • 030 5.5 47 52 0 10
40000 .465 .323 .025 11.
.268
N 12469 (41 ) 5000 .342 .052 1.0 70 75 1 0
MULT:36 10000 • 406 .470 66 64 0 1
.480 .046 2.1 62 55 0 1
3P-3D 2D-2F 20000 • 486 .460 .040 4.1 60 47 0 2
40000 .570 .415 .036 8.3

N 12043 (42 ) 5000 .396 .061 .76 75 76 0 3
MULT:37 10000 .449 .055 74 64 0 3
1.5 74 54 0 4
3P-3D 2D-2D 20000 .506· .051 3.0 75 45 0 6
40000 .557 .047 6.1

A l V . a . IMPACT WIDTHS, SHIFTS, AND BROADENING PARAMETERS 335

ELEMENT TEMP· WIDTH SHIFT ALPHA BETA WA WS WQ OR
.463 73 92 0 0
N 11290 (45 ) 5000 .402 .512 .062 .57 71 81 0 0
MULT:17 10000 .464 .515 .056 1.1 68 66 0 0
3 P - 4 S 4 D - 4 P 2 0 0 0 0 ,5<+4 .465 .050 2.3 66 53 0 0
.045 4.6
40000 .627

N l<i217 (46 ) 5000 .457 .539 .063 .73 74 92 00
MULTI27 10000 .536 .590 71 81 00
.588 .056 1.5 67 66 00
3P-4S 4P-4P 20000 .635 .527 .049 2.9 65 53 0 -1
.0^4 5.9
40000 .738

5201 (49 ) 5000 2.44 1.48 .2<*3 .42-02 80 38 01
MULT: 10000 2.39 1.10 .2*+6 .85-02 91 31 03
3P-5D 2S-2P 20000 2.26 .791 .257 .17-01 lo9 27 05
40000 2.07 .574 .275 .34-01 I33 24 0 ll

1304(2) 5000 .721-03 .872-03 .031 .34-02 77 98 00 01
MULT:2 UV 10000 .821-03 .100-02 .028 .67-02 76 91 00 01
2P-3S 3P-3S 20000 .945-03 .110-02 .025 .13-01 74 79 00 01
40000 .108-02 .110-02 .023 .27-01 73 64 00 01

989(3) 5000 .372-03 .448-03 .030 .16-02 77 98 00 01
MULT:3 UV 10000 .423-03 .516-03 .027 .32-02 76 91 00 01
2P-3S 3P-3D 20000 .486-03 .566-03 .024 .64-02 74 79 00 01
40000 .552-03 .573-03 .022 .13-01 73 64 00 01

1152(4) 5000 .567-03 .683-03 .031 .23-02 77 97 00 01
MULT:6 UV 10000 .646-03 .784-03 .028 .46-02 75 90 00 01
2P-3S ID-ID 20000 .743-03 .853-03 .025 .92-02 74 78 00 01
40000 .844-03 .850-03 .023 .18-01 73 62 00 01

0 1027(8) 5000 .209-02 .256-02 .054 .52-03 76 86 02 01
MULT:4 UV .10-02 73 75 01 01
10000 .244-02 .273-02 .048 .21-02 70 63 01 02
2P-3D 3P-3D 20000 .285-02 .270-02 .043 .42-02 69 51 01 02
40000 .323-02 .248-02 .039

0 7773(11) 5000 .228-01 .144-01 .016 .12+01 44 79 10 06
MULT:1 10000 .315-01 .143-01 .012 .24+01 36 73 06 06
3S-3P 5S-5P 20000 .447-01 .130-01 .010 .47+01 28 65 03 07
40000 .603-01 .108-01 .008 .95+01 23 57 02 10

0 8447(12) 5000 .394-01 .358-01 .026 .91+00 59 86 06 02
10000 .514-01 .373-01 .021 .18+01 51 77 04 02
MULT:4 .36+01 42 66 03 02
3S-3P 3S-3P 20000 .693-01 .356-01 .017 .73+01 36 56 02 03
40000 .907-01 .310-01 .014

0 8227(13) 5000 .238-01 .310-02 .005 .29+01 18 68 18 -19
MULT:34 .59+01 13 70 08 -15
10000 .350-01 .367-02 .004 .12+02 10 65 04 -12
3S-3P 3D-3D 20000 .514-01 .450-02 .003 .23+02 08 58 02 -10
40000 .708-01 .524-02 .002

0 7949(14) 5000 .228-01 .708-02 .008 .21+01 23 72 15 14
10000 .333-01 .602-02 .006 .42+01 18 70 07 16
MULT:35 .84+01 14 65 04 23
3S-3P 3D-3F 20000 .486-01 .423-02 .004 .17+02 11 58 02 44
40000 .666-01 .227-02 .003

336 APPENDIX I V . STARK BROADENING PARAMETERS AND PROFILES

ELEMENT ALPHA WA WS WQ DR

0 8820(16) 5000 .298-01 .739-02 .006 .31+01 20 71 15 15
.633-02 .005 .62+01 15 70 07 17
MULT:37 10000 .441-01 .473-02 .004 .12+02 12 65 03 21
.310-02 .003 .25+02 10 57 02 33
3S-3P ID-IF 20000 .643-01

40000 .876-01

0 7157(17) 5000 .400-01 .447-01 .035 .38 70 90 04 01
.75 65 81 03 01
MULT:38 10000 .481-01 .487-01 .030 .15+01 59 68 02 02
. 30+01 53 56 02 02
3S-3P ID-ID 20000 .601-01 .484-01 .026

40000 .744-01 .433-01 .022

0 3947(25) 5000 .453-01 -.683-02 .018 .52-01 25 66 06 -10
.10 20 61 04 -42
MULT:3 10000 .626-01 -.172-02 .014 .21 17 55 02 25
.41 16 48 02 14
3S-4P 5S-5P 20000 .819-01 .298-02 .011

40000 .987-01 .597-02 .010

0 4368(26) 5000 .584-01 .331-01 .032 .46-01 41 77 06 02
.92-01 34 68 04 02
MULT:5 10000 .802-01 .356-01 .025 .18 28 59 02 02
.37 26 51 02 02
3S-4P 3S-3P 20000 .107 .358-01 .020

40000 .131 .330-01 .018

0 9264(28) 5000 .192 .223 .055 .36 75 79 01 01
.228 .050 .71 73 68 01 02
MULT:8 10000 .222 .214 .044 . 14+01 70 57 01 02
.184 .040 .28+01 69 48 01 03
3P-3D 5P-5D 20000 .258

40000 .294

0 11287(29) 5000 .239 .278 .051 .75 74 84 01 02
.289 .044 .15+01 70 73 01 03
MULT: 10000 .285 .275 .038 .30+01 64 61 01 03
.242 .034 .60+01 61 51 01 05
3P-3D 3P-3D 20000 .347

40000 .413

0 11299(30) 5000 .322 .377 .058 .59 74 93 00 00
.416 .051 .12+01 71 82 00 00
MULT:7 10000 .376 .419 .045 .24+01 67 68 00 00
.379 .040 .47+01 64 54 00 00
3P-4S 5P-5S 20000 .447

40000 .522

0 13164(31) 5000 .459 .548 .059 .89 74 93 00 01
.597 .052 .18+01 70 81 00 01
MULT: 10000 .547 .594 .045 .36+01 65 67 00 01
.532 .040 .72+01 61 54 00 01
3P-4S 3P-3S 20000 .661

40000 .783

0 6157(32) 5000 .117+01 .945 .179 .13-01 88 41 00 00
.181 .26-01 1.00 35 00 00
MULT:10 10000 .116+01 .813 .186 .51-01 1.16 31 00 01
.195 .10 1.39 27 00 01
3P-4D 5P-5D 20000 .111+01 .668

40000 .104+01 .527

0 7002(33) 5000 .175+01 .120+01 .225 .15-01 1.02 33 00 00
.999 .235 .30-01 1.22 29 00 00
MULT:21 10000 .165+01 .805 .248 .60-01 1.47 27 00 01
.628 .264 .12 1.79 25 00 01
3P-4D 3P-3D 20000 .154+01

40000 .142+01

0 6455(37) 5000 .413 .480 .096 .40-01 73 90 00 00
.512 .084 .79-01 69 77 00 00
MULT:9 10000 .490 .497 .074 .16 66 62 00 00
.437 .068 .32 65 49 00 00
3P-5S 5P-5S 20000 .579

40000 .656

A l V . a . IMPACT WIDTHS, SHIFTS, AND BROADENING PARAMETERS 337

TMEP. WIDTH SHIFT WA WS WQ DR

7254(38) 5000 .547 .628 .096 .55-01 73 89 00 -00
MULT:20 10000 .655 .665 .084 .11 68 76 00 -00
3P-5S 3P-3S 20000 .783 .639 .074 .22 64 62 00 -00
40000 .894 .557 .067 .44
63 49 00 -00

5330(39) 5000 .298+01 .229+01 .282 .33-02 87 40 00 00
MULT:12 10000 .292+01 .191+01 .286 .67-02 1.00 33 00 00
3P-5D 5P-5D 20000 .277+01 .153+01 .298 .13-01 1.18 29 00 00
40000 .254+01 .117+01 .318 .27-01 1.45 25 00 01

5436(40) 5000 .826 .921 .137 .11-01 71 85 00 -00
MULT:11 10000 .100+01 .943 .118 .22-01 66 71 00 -00
3P-6S 5P-5S 20000 .120+01 .876 .104 .44-01 62 58 00 -OC
40000 .134+01 .745 .095 .89-01 62 46 00 -OC

0 6046(41) 5000 .107+01 .118+01 .137 .15-01 70 84 0 0 - 0 0
MULT:22 10000 .131+01 .120+01 .118 .30-01 65 71 00 -00
3P-6S 3P-3S 20000 .157+01 .111+01 .103 .60-01 61 58 00 -00
40000 .177+01 .938 .094 .12 60 46 00 -00

F 7490 (1 ) 5000 ,167-01 ·366"02 .00** 2.5 14 67 19 37
MULT:l 10000 .243-01 .303-02 .003 5·0 10 68 8 43
3b-3P 4P-4p 20000 .355-01 .214-02 .002 9.9
40000 .487-01 .133-02 .002 20. 8 64 4 56
6 58 2 92

F 6ö59 (2 ) 5000 .176-01 .152-01 .020 .58 54 82 96
MULT:2 10000 .233-01 .157-01 .016 1.2 46 75 67
3S-3P 4P-4D 20000 .321-01 .147-01 .013 2.3 37 65 38
40000 .428-01 .128-01 .010 4.7 31 57 2U

F 6304 (3 ) 5000 .212-01 .226-01 .029 .30 66 88 5 2
MULT:3 10000 .257-01 .247-01 .025 .60 61 80 4 3
3b-3P 4P-45 20000 .327-01 .246-01 .021 1.2 54 68 2 3
4*0000 . 4 1 5 - 0 1 . 2 2 2 - 0 1 .017 2.4 48 57 2 4

F 7759 (4 ) 5000 .228-01 .143-01 .015 1.0 42 77 11 7

MULT:4 10000 .320-01 .139-01 .012 2.0 33 72 6 8
26 64 3 9
3b-3P 2P-2D 20000 .455-01 .123-01 .009 4.0 22 57 2 12

40000 .617-01 .101-01 .007 8.1

F 7369 (5 ) bOOO .252-01 .225-01 .023 .59 57 84 7 3

MüLT:b 1Q000 .329-01 .233-01 .019 1.2 49 76 5 3
41 66 3 4
3b-3P 2P-2S 20000 .445-01 .220-01 .015 2.4 34 57 2 5

4Ü000 .587-01 .190-01 .012 4.7

F 7U67 (6 ) bOOO .269-01 .279-01 .028 .42 65 87 6 2
58 78 4 2
MÜLT:Ü lüOOO .339-01 .297-01 .024 .85 49 67 2 2
3b-3P 2P-2P 20000 .445-01 .288-01 .019 1.7 43 57 2 3
4U000 .575-01 .253-01 .016 3.4

NE 7*4 (1 ) 5000 .161-03 .191-03 .027 .66-03 76 98 0 0
.024 .13-02 75 92 0 0
MULT:l UV 10000 .183-03 .221-03 .022 .26-02 73 80 0 0
.020 .53-02 72 65 0 0
2P-3S 20000 .211-03 .244-03
1S-1 1/2 40000 .241-03 .248-03

338 APPENDIX I V . STARK BROADENING PARAMETERS AND PROFILES

ELEMENT TEMP. WIDTH SHIFT ALPHA BETA rtA WS WQ DR
NE 736 (2
5000 •163-03 .194-03 .027 ,62-03 76 98
MULT:UV 10000 .185-03 .22^-03 .025 .12-02 75 92
2P-3S 20000 .213-03 .247-03 .022 .25-02 74 81
1S-1/2 40000 ,244-03 .251-03 72 66
.020 .50-02

NE 7032 (3 ) 5000 .130-01 .711-02 .010 1.1 33 72 16 Z2

MULT:l 10000 .186-01 .688-02 .008 2.3 26 70 8 23
.006 4.5 20 64 4 25
3S-3P 20000 .267-01 .633-02 .005 9.0 16 57 2 29

1 1/2 - 1/2 40000 .364-01 .570-02

NE 6402 (3 ) 5000 .150-01 .158-01 .024 .41 63 85 8 5
.020 .81 55 78 5 5
MULT:l 10000 .194-01 .167-01 .016 1.6 47 67 3 6
3S-3P 20000 .£58-01 .164-01 .013 3.2 40 57 2 7
1 1/1-2 1/2 40000 .336-01 .149-01

NE 5945 (3 ) 5000 .146-01 .I64-OI .027 .28 67 88 6 4
.023 .57 61 80 4 4
MULT:l 10000 .180-01 .178-01 .019 1.1 54 69 3 5
3S-3P 20000 .231-01 .178-01 .016 2.3 47 58 2 7
1 1/2-1 1/2 40000 .295-01 .165-01

NE 7245 (4 ) 5000 .138-01 .454-02 .006 1.8 20 68 18 36
MULT:3 10000 .200-01 .419-02 .004 3.6 15 69 9 38
3S-3P 20000 .291-01 .366-02 .003 7.2 11 64 4 4O
1 1/2- 1/2 40000 .398-01 .325-02 .003 14.
9 57 2 46

NE 6507 (4 ) 5000 .157-01 .159-01 .023 .43 62 85 8 5
MULT:3 10000 .202-01 .168-01 .019 .86 54 77 5 5
.015 1.7 45 67 3 6
3b-3P 20000 .270-01 .164-01 .013 3.4 39 57 2 7

1 1/2-2 1/2 40000 .355-01 .149-01

NE 6096 (4 ) 5000 .152-01 .163-01 .026 .32 65 87 6 4
MULT: 3 10000 .188-01 .176-01 .022 .63 59 79 4 4
3S-3P 20000 .244-01 .176-01 .018 1.3 51 68 3 5
1 1/2-1 1/2 40000 .314-01 .161-01 ,015 2.5 45 57 2 6

NE 6533 (5 ) 5000 .170-01 .178-01 .025 .40 64 86 7 5
MULT: 5 10000 .214-01 .191-01 .021 .81 57 78 5 5
3b-3P .017 1.6 i+8 67 3 6
20000 .282-01 .190-01 .014 3.2 42 57 2 7
1/2-1 1/2 40000 .365-01 .174-01
66 87 6 4
NE 6<ί67 (5 ) 5000 .158-01 .173-01 .026 .34 59 79 4 4
MULT:5 10000 .198-01 .186-01 .022 .69 51 68 3 5
3S-3P 20000 .257-01 .185-01 .018 1.4 44 57 2 6
1/2-1 1/2 40000 .331-01 .171-01 .015 2.8
51 81 9 2
NE 6929 (6 ) 5000 .179-01 .137-01 ,019 .60 43 74 5 2
MULT: 10000 .240-01 .138-01 .015 1.2 34 65 3 3
20000 .333-01 .126-01 .012 2.4 29 57 2 4
3S-3P ,009 4,8
1/2-1 1/2 40000 .447-01 .105-01 54 81 9 2
45 74 5 2
NE 6678 (6 ) 5000 .161-01 .133-01 .020 .53 36 65 3 3
MULT:6 10000 .215-01 .135-01 30 57 2 4
3S-3P 20000 .298-01 .124-01 .016 1.1
1/2-1 1/2 40000 .400-01 .104-01 .012 2.1
.010 4.2

A l V . a . IMPACT WIDTHS, SHIFTS, AND BROADENING PARAMETERS 339

ELEMENT TEMP. WIDTH SHIFT ALPHA BETA WA WS WQ DR

NE 3473 (7 ) 5000 .422- 01 -.194- 01 .039 . 1 5 - 01 i+6 63 3 -2
MULT:2 10000 .543- 01 -.132- 01 .032 .30- 01 40 56 2 -4
3S-4P 20000 .669- 01 -.682- 02 .027 .61- 01 36 50 1-10
1 1/2-2 1/2 40000 .771- 01 -.202- 02 .025 .12 35 44 1-40

NE 3520 (8 ) 5000 .390- 01 .213- 01 .030 .20- 01 38 74 5 2
MULT: 10000 .533- 01 .237-01 .024 .39- 01 31 66 3 1
35-4P 20000 .692- 01 .246- 01 .020 .79- 01 27 57 2 2
1/2-1/2 40000 .830- 01 .234- 01 .017 .16 25 49 1 2

NE 7489 (9 ) 5000 .190 .212 .067 .11 76 67 0 1
MULT: 10000 • 208 .210 .063 .21 78 56 0 1
20000 .223 .195 .060 .43 82 47 0 1
3P-3D .171 .058 .86 88 41 0 2
1/2-1 1/2 40000 .234

NE 8378 (10 ) 5000 .196 .224 .061 .18 75 74 0 0
MULT:12 10000 .220 .227 .056 .35 75 62 0 1
3P-3D 20000 .245 .213 .052 .70 75 52 0 1
2 1/2-3 1/2 40000 .267 .185 .049 1.4 78 44 0 2

NE 8495 (11 ) 5000 .197 .230 .061 .19 75 76 0 1
MULT:18 10000 • 222 .235 .056 .37 75 64 0 1
20000 .247 .223 .052 .74 75 54 0 1
3P-3D .270 .198 .048 1.5 77 45 0 2
2 1/2-3 1/2 40000

NE 8b54 (12 ) 5000 .204 .236 .061 .20 75 75 0 0
MULT:33 10000 .230 .239 .056 .39 74 63 0 1
20000 .258 • 224 .051 .79 74 53 0 1
3P-3D .195 .047 1.6 76 45 0 2
1 1/2-2 1/2 40000 .284 60 83 8 3
52 76 5 3
NA 5892 (1 ) 5000 .121-•01 .118"•01 .022 .30 43 66 3 4
MULT:l 10000 .157-•01 .122-•01 .018 .59 37 57 2 5
3S-3P 2S-2P 20000 .212-•01 .115-■01 .015 1.2
40000 .280-•01 .989-•02 .012 2.4

NA 3^03 (2 ) 5000 .421-•01 -.211-•01 .043 .10--01 49 62 2 -1
MULT:2 10000 .527-•01 -.145-•01 .037 .20-■01 44 54 2 -2
3b-4P 2S-2P 20000 .634-•01 -.782-•02 .032 .40--01 41 48 1 -5
40000 .717-•01 -.279-■02 .029 .80--01 41 <*3 1-•19

NA 2o53 (3 ) 5000 .141 -.999-■01 .093 .18-02 59 62 10
MULT:i UV 10000 .170 -.810-•01 .081 .37-02 55 52 10
3b-5P 2S-2P 20000 .196 -.588-•01 .073 .73-02 53 45 1 -1
40000 • 212 -.393-■01 .068 .15-01 55 39 1 -2

NA 11397 (17 ) 5000 .234 .274 .051 .54 73 93 0 0
MULT:3 10000 .277 .303 .045 1.1 69 83 0 0
3P-4S 2P-2S 20000 .335 .306 .039 2.2 64 69 0 0
40000 .401 .278 .034 4.3 60 55 0 0

6159 (18 ) 5000 .272 .310 .083 .31--01 72 89 0 0
MULT:5 10000 .333 .328 .071 .62--01 65 77 0 0
.408 .317 .061 .12 60 63 0 0
3P-5S 2P-2S 20000 .477 .279 .055 .25 58 50 0 0
40000

3 4 0 APPENDIX I V . STARK BROADENING PARAMETERS AND PROFILES

ELEMENT TEMP. WIDTH SHIF1 ALPHA BETA WA WS WQ DR
66 84 0 0
NA 5ib2 (19 ) bOOO .55b .571 .114 .86-02 59 71 0 0
MULT:6 10000 .702 .580 .096 .17-01 53 58 0 0
3P-6S 2P-2S 20000 .868 .538 .082 .34-01 52 47 0 0
40000 1.00 .460 .074 .69-01

8191 (28 ) b000 • 202 .227 .063 .13 75 71 0 0
.226 .225 .058 .27 75 59 0 0
MULT:H IOOOO .249 .207 .054 .54 77 50 0 0
.270 .177 .051 1.1 79 43 0 1
3P-3D 2P-2D 20000
40000

NA boob (29 ) bOOO 1.44 .970 .273 .44-02 112 31 0 0
MULTlb 10000 1.35 .805 .287 .88-02 135 28 0 0
3P-4U 2P-2D 200.00 1.23 .647 .307 .18-01 lo5 25 0 0
40000 1.11 .505 .333 .35-01 207 23 0 0

4*81 (30 ) bOOO 3.82 2.41 .433 .12-02 112 30 0 0
3.52 1.94 .460 .24-02 136 26 0 0
MULT:9 IOOOO 3.17 1.51 .498 .47-02 170 23 0 0
2.7a 1.15 .549 .94-02 218 20 0 0
3P-bD 2P-2D 2000Ü
4U000 -1.51
-1.27
NA 1U747 (49 ) 5000 2.01 -.980 .096 .96-01 60 62 10
MULT:18 10000 2.42 -.720 .084 .19 56 52 10
4b-5P 2S-2P 20000 2.80 .075 .38 55 45 0 -1
40000 3.06 .070 .77 56 40 0 -2

NA 8bb0 (50 ) bOOO 3.9b -3.01 .150 .21-01 62 61 00
MULT:19 10000 4.65 -2.51 .133 .43-01 59 50 00
4S-6P 2S-2p 20000 5.22 -1.93 .122 .85-01 59 43 00
40000 5.50 -1.40 .117 .17 63 37 0 -1

NA 7Ò10 (51 ) bOOO 7.80 -5.92 .213 .80-02 63 59 00
-4.94 .191 .16-01 61 48 00
MULT:20 ioooo 9.04 -3.80 .178 .32-01 62 41 0 -1
4S-7P 2S-2P 20000 9.93 -2.77 .174 .64-01 68 35 0 -2
40000 10.2

MG 2θ52 (2 ) bOOO .348-02 .391- 02 .029 .24-01 72 91 3 -3
MOLT:l UV 10000 .410-02 .434- 02 .026 .48-01 69 83 2 -3
3b-3P lS-lp 20000 .494-02 .440- 02 .022 .97-01 64 70 2 -3
40000 .596-02 .387- 02 .019 .19 60 58 1 -4

MG 2026 (4 ) bOOO .996-02 .917- 02 .046 .27-02 61 85 3 -1
.125-01 .997- 02 .039 .53-02 55 74 2 -1
MULT:2 uv ioooo .158-01 .997- 02 .033 .11-01 48 62 1 -1
3S-4P lS-lp 20000 .190-01 .908- 02 .029 .21-01 45 51 1 -1

40000

MG 3835 (5 ) bOOO .107 -.445- 01 .133 .52-02 108 27 0 -1
MULT:3 10000 .962-01 -.270- 01 .145 .10-01 136 23 0 -4
3P-3D 3P-3D 20000 .852-01 -.139- 01 .159 .21-01 173 22 0- 10
40000 .752-01 -.512- 02 .174 .41-01 220 21 0-•42

MG 8Ö07 (6 ) 5000 .726-01 .892-■01 .038 .40 71 80 1U
MULT:7 10000 .866-01 .925-■01 .033 .81 66 68
.901-•01 .029 1.6 62 57 1 12
3P-3D IP-ID 20000 .104 .841-■01 .026 3.2 60 48 1 15
40000 .122 1 21

A l V . a . IMPACT WIDTHS, SHIFTS, AND BROADENING PARAMETERS 341

ELEMENT TEMP. wionÏ SHIFT ALPHA BETA WA WS WQ DR
76 96 0 1
MG 5178 (7 ) 5000 .283- 01 .349-Ό1 .044 .70-01 74 88 0 1
MULT:2 10000 .328- 01 .396- 01 .039 .14 71 74 0 1
3P-4S 3P-3S 20000 .383- 01 .420- 01 .035 .28 69 59 0 1
40000 .443- 01 .405- 01 .031 .56

MG 11828 (8 ) 5000 .153 .161 • 039 .89 69 92 0 -2
MULT:6 10000 .192 .172 .033 1.8 61 81 0 -2
3P-4S IP-IS 20000 .250 .167 .027 3.5 53 67 0 -2
40000 .317 .145 .023 7.1 47 56 0 -3

MG 3095 (9 ) 5000 .359 • 268 .216 .87-03 96 37 0 0
MULT:b 10000 .347 .224 .222 .17-02 112 31 0 0
3P-4D 3P-3D 20000 • 322 .181 .234 .35-02 136 27 0 0
40000 .290 .141 .254 .70-02 169 23 0 0

MG 5528 (10 ) 5000 • 202 • 234 .081 .23-01 72 84 0 0
MULT:9 10000 • 241 .240 .071 .45-01 68 70 0 0
3P-4D IP-ID 20000 • 282 .223 .063 .91-01 65 57 0 0
40000 .313 • 188 .059 .18 66 45 0 1

MG 3335 (11 ) 5000 .550-•01 .663- 01 .075 .60-02 74 91 0 0
MULT:4 10000 .664- 01 .715- 01 .066 .12-01 69 80 0 0
3P-5S 3P-3S 20000 .801- 01 .712- 01 .057 .24-01 64 65 0 1
40000 .930-•01 .647- 01 • 051 .48-01 62 52 0 1

MG 2Ö50 (12 ) 5000 .841 .678 .277 .35-03 86 42 0 0
MULT:5 UV 10000 .837 .570 .278 .69-03 97 35 0 0
3P-5D 3P-3D 20000 .793 .456 .289 .14-02 115 29 0 0
40000 .720 .350 .311 .28-02 142 24 0 0

MG 4703 (13 ) 5000 .422 .451 .114 .66-02 68 82 0 0
MULT:11 10000 .513 .456 .099 .13-01 63 68 0 0
3P-5D IP-ID 20000 • 612 .417 .086 .26-01 59 56 0 0
40000 • 685 .350 .079 .52-01 59 45 0 0

MG 2940 (14 ) fili iiii .133 .142 .104 .19-02 68 85 0 0
MULT:3 UV .167 .146 .088 .38-02 61 72 0 0
3P-6S 3P-3S • 206 .137 .075 .76-02 55 59 0 0
.239 .119 .067 .15-01 53 48 0 1

MG 7658 (24 ) 5000 2.82 -1.52 .234 .11-01 95 30 00
MULT:22 10000 2.60 -1.10 .249 .22-01 116 25 00
4S-5P 3S-3P 20000 2.35 -.770 .269 .44-01 144 23 00
40000 2.10 -.533 .292 .88-01 182 21 0 -1

MG 8924 (25 ) • 692 .570 .068 .94-01 56 80 30
MULT:25 .919 .574 .055 .19 47 69 20
4S-5P lS-lp 1.19 .528 .045 41 58 1 -1
1.42 • 44^ .039 .38 38 49 1 -1

.75

MG 10962 (26 ) 5000 12.9 9.42 .261 .20-01 80 42 00
MULT:35 10000 12.9 7.92 .261 .40-01 90 35 00
4P-5D 3P-3D 20000 12.2 6.33 .271 .81-01 106 29 00
4J000 11.1 4·85 .290 .16 131 24 00

3 4 2 APPENDIX I V . STARK BROADENING PARAMETERS AND PROFILES

ELEMENT TEMP. WIDTH SHIFT ALPHA BETA ΛΑ WS WQ DR

AL 30Θ9 (1 ) 5000 .264-01 .228-01 .067 .62-02 81 43 03
MULT:3 10000 .261-01 .203-01 .067 .12-01 92 35 05
.069 .25-01 108 31 08
3P-3D 2P-2D 20000 .250-01 .177-01 .073 .50-01 129 27 0 13
40000 .234-01 .154-01

AL 3956 (2 ) 5000 .134-01 .164-01 .040 ,33-01 76 96 0 1
MULT:l 10000 .154-01 .187-01 .036 .66-01 74 88 0 1
.032 .13 72 75 0 1
3P-4S 2P-2S 20000 .179-01 .201-01
40000 .205-01 .196-01 .029 .26 70 60 0 1

AL 2573 (3 ) 50OO .362-01 .433-01 .078 .23-02 74 86 0 0
MULT:2 UV 10000 .421-01 .458-01 .070 .46-02 72 73 0 0
3P-4D 2P-2D 20000 .482-01 .445-01 .063 .92-02 70 59 0 0
40000 .529-01 .393-01 .059 .18-01 72 47 0 0

AL 2658 (4 ) 5000 .310-01 .371-01 .072 .30-02 74 92 0 0
MULT:l UV 10000 .369-01 .405-01 .063 .60-02 70 81 0 0
3P-5S 2P-2S 20000 .440-01 .406-01 .055 .12-01 66 66 0 0
40000 .508-01 .371-01 .050 .24-01 64 52 0 0

AL 2371 (5 ) 5000 .586-01 .396-01 .059 .16-02 46 76 20
MuLT:4 UV 10000 .767-01 .411-01 .047 .31-02 39 66 10
3P-5D 2P-2D 20000 .100 .397-01 .0^0 .63-02 34 56 10
40000 .117 .356-01 .035 .13-01 33 47 01

AL 2dò7 (7 ) 5000 .182 -.104 .104 .51-03 51 63 10
MULT:5 UV 1U000 .230
3P-6D 2P-2D 20000 .275 -.821-01 .087 .10-02 45 54 0 -1
40000 .304 -.584-01 .076 .20-02 42 47 0 -2
-.379-01 .071 .41-02 43 41 0 -4

AL 10132 (18 ) 5000 .695 -.505 .067 .39 72 48 01
MULT:4 10000 .748 -.408 .063 .79 75 42 03
45-4P 2S-2P 20000 .803 -.321 .060 1.6 78 39 05
40000 .857 -.255 .057 3.1 82 38 08

AL 6697 (19 ) 5000 .289 .132 .037 .61-01 36 74 3 -7
MULT:5 10000 .402 .1? 29 66 2 -7
4;>-5P 2S-2p 20000 .527 .141 ,029 .24 25 57 1 -8
4UÙ00 .633 .137 .024 .49 23 48 1-10
.120 .021

AL b^>57 (20 ) 5000 .698 .616 .105 .94-02 60 79 1 -1
MULT:6 10000 .897 .610 .087 .19-01 52 67 1 -1
.551 .074 .37-01 i*7 55 1 -1
45-6P 2S-2P 20000 1.12 .457 .066 .75-01 n6 46 0 -2
40000 1.29

AL lo743 (21 ') 5000 2.04 2.34 .088 .50 75 76 0 0
MULT: 10000 2.32 2.37 .080 1.0 74 64 0 0
2.20 .073 2.0 74 53 0 1
4P-4D 2P-2D 20000 2.62 1.88 .068 4.0 76 44 0 1
40000 2.86

AL 10779 (22 ) 5000 1.36 1.01 .070 .12 52 74 1 0
MULT:13 10000 1.79 1.02 .057 .25 45 64 0 0
4P-5D 2P-2D 20000 2.24 .941 ,048 .49 4O 55 0 0
4J000 2.61 .807 .043 .99 38 46 0 0