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Grotrian diagrams for highly ionized iron FeVIII-FeXXVI
ATOMIC
DATA AND NUCLEAR
GROTRIAN
DATA TABLES
DIAGRAMS
23,195294
FOR HIGHLY KAZUO
Institute
IONIZED
IRON FEVIII-FEXXVI
MORI
of Physical and Chemical Research Wako-shi, Saitama 35 1, Japan
MASAMOTO Institute
(1979)
OTSUKA
and TAKAKO
KATO
of Plasma Physics, Nagoya University Nagoya 464, Japan
Energy levels and Grotrian diagrams for FeVIII-FeXXVI are presented. Wavelengths, configurations for each transition, oscillator strengths, and radiative transition probabilities are tabulated with references.
0092-640X/79/030195-100$2.00/0 Copyright 0 1979 by Academic Press, Inc. All rights of reproduction in any form reserved.
195
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3, March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
CONTENTS
INTRODUCTION........................................... EXPLANATION DIAGRAMS
FOR FeVIII
EXPLANATION TABLES.
OF DIAGRAMS
. . . . . . . . . . . . . . . . . . . . . . . . , . . . 198
- FeXXVI
OF TABLES
196
. . . . . . . . . . . . . . . . . . , . . . , . . . . 200
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 233
Transition Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 234 Wavelengths, configurations, oscillator strengths, transition probabilities, and reference numbers for FeVIII -FeXXVI
REFERENCES
FOR TABLES
. . . . . ..*..*...*................
283
INTRODUCTION Energy levels and Grotrian diagrams of FeVIIIFeXXVI are presented. They were originally compiled for our studies on impurities in tokamak plasmas and on the spectral intensity distribution of solar radiation. When our work was started in 1973, the only useful bibliography was in the wavelength tables by Kelly and Palumbo,l which, however, did not supply us with sufficient information above FeXVIII. Since then, Fawcett2 has presented a review on the classification of highly ionized atoms, including iron. Reader and Sugar” published the energy levels of iron, Fe1 through FeXXVI, derived primarily from available spectra. Fawcett4 made a compilation of the lower resonance transitions of ions, Z 5 28, supplemented by wavelengths predicted theoretically. The latter two articles almost completed the data on iron up to FeXX. Since 1975, the emphasis has been on the carbon-, boron-, beryllium-, and lithium-like FeXXI-FeXXIV ions. At first their lines were identified in solar flare spectra, and later, they were compared with laboratory data from laser and tokamak plasmas. The high-power laser (up to 100 GW) provided extensive classifications of FeXIX-FeXXII (Kononov et a1.5), and tokamaks supplied definite identification of the principal resonance transitions of FeXXIII and FeXXIV (Hinno@). For example, the lithium-like 255-A and 192-A lines were recently classified (Widing and Purcell,’ Sandlin et a18) with a spectrograph on a satellite by analyzing isoelectronic sequences from MgX to NiXXVI. They were finally confirmed by Hinnovs in the experiment on the PLT tokamak; FeXXIV (Li sequence): 255.11 + 0.03 A, and 192.05 -I 0.03 A, ~.s~S~,~-~JI~P,,,. ~2s1,2-wpl,2, In high-temperature plasmas (of 1 million degrees or more), elements such as iron are ionized up to the
2,s22@’ configurations. Spectra of these ions, FeXVII through FeXXIV, lie mainly in two wavelength regions: the first between 10 and 17 A, which includes 2p”-2p”-‘3d emission lines, and the second between 90 and 270 A, where spectra of the 2.~~2p~-2@~+~ transitions are found. We have summarized the data published recently (up to 1976) in addition to those in the above-mentioned references. The wavelength tables thus compiled were converted to the accompanying diagrams. Diagrams showing transitions from one energy level to another are called “Grotrian diagrams.” Typical examples of such diagrams are found in the book published by Bashkin et allo In the usual diagrams such as Bashkin’s, the line density is sometimes too great for each line to be drawn distinctly because most of the transition lines are connected obliquely to the common lower levels. In the present diagrams, all the lines are drawn in parallel and connected to the lines extended from the lower levels. As a result, dense packing of lines and figures is avoided. Furthermore, the multiplet lines are accommodated as a whole. Our diagrams are, so to speak, combinations of tables of wavelengths and energy levels. Thus, the desired wavelengths and level energies are easily found. Also, the wavelength values are lined up in various groups, so that the characteristics of the transitions can be discerned at a glance. The wavelengths and level energies have been derived mostly from experimental spectra in laboratory or solar plasmas, except a few that are due to Fawcett’s predictions. (August 1977)
196
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3, March
1979
Grotrian Diagrams for FeVIII-FeXXVI
K. MORI,M.OTSUKA,andT.KATO
ards and Y.-K. Kim of Argonne National Laboratory. One of the authors (K.M.) is especially indebted to Dr. A. Funahashi and others in the tokamak group of Japan Atomic Energy Research Institute for their continuous encouragement during this work.
The present Grotrian diagrams were originally published in 1977 as a report (IPPJ-AM-3) of the Institute of Plasma Physics (IPP), Nagoya University. We have added tables of wavelengths, oscillator strengths, and transition probabilities and references relevant to the diagrams. Since the tables were compiled after the completion of the diagrams, the references for the tables include those through 1978. This work was performed as one of the activities of the Working Group on Atomic Processes at the Research Information Center, IPP. Larger diagrams (52 x 36.5 cm) are available upon request to the Research Information Center, as long as the supply lasts. According to some recent information, two kinds of publications are expected to appear in relation to the present tables. One is an article by J. P. Desclaux, K. T. Cheng, and Y-K. Kim, which has been submitted to J. Phys. B, entitled “Relativistic Energy Levels of FeXXI.” This article shows the calculated energy levels of FeXXI with configurations 2s22p2, 2s2p3, and 2p4. The other is a critical compilation on transition probabilities of Fe1 through FeXXVI, Co1 through CoXXVII, and NiI through NiXXVIII, which will be published in J. Phys. Chem. Ref. Data in late 1979 or early 1980. The authors are K. R. Fuhr, G. A. Martin, S. M. Younger, and W. L. Wiese. These two publications will supplement the present data compilation . Very recently, Dr. Katharine Way informed us of two further publications, which are referenced at the end of this introduction (Kelly and Harrison,” Fawcett12). (July 1979)
References
for Introduction
1. R. L. Kelly and L. J. Emission Lines below through Krypton, NRL ment Printing Office, No. 0851-00061 (1973)
Palumbo, Atomic 2000 Angstroms: Report 7599, U. Washington, D.
and Ionic Hydrogen S. GovernC., Stock
2. B. C. Fawcett, Advan. Atom. Mol. Phys. 10, 223 (1974) 3. J. Reader and J. Sugar, J. Phys. Chem. Ref. Data 4, 353 (1975) 4. B. C. Fawcett, ATOMIC DATA AND NUCLEAR DATA TABLES 16, 135 (1975) 5. E. Ya. Kononov, K. N. Koshelev, L. I. Podobedova, S. V. Chekalin, and S. S. Churilov, J. Phys. B 9, 565 (1976) 6. E. Hinnov,
Phys. Rev. A 14, 1533 (1976)
7. K. G. Widing and J. D. Purcell, Astrophys. L151 (1976)
J. 204,
8. G. D. Sandlin, G. E. Brueckner, B. E. Scherrer, and R. Tousey, Astrophys. J. 205, L47 (1976) 9. E. Hinnov, private communication phys. J. 230, L197 (1979)
(1977); Astro-
10. S. Bashkin
and J. 0. Stoner Jr., Atomic Energy Levels and Grotrian Diagrams, Vol. I, Hydrogen Z-Phosphorus XV (North-Holland, Amsterdam,
Acknowledgments
We owe special thanks to Drs. S. Hayakawa, Y. Itikawa, and S. Ohtani of Nagoya University and K. Way of Duke University for their valuable comments and kind arrangement for publication. Useful suggestions were given to us by Professor K. 'YE&ayanagi, Professor H. Suzuki, and others in the working group for compilation of atomic data for fusion research in the Institute of Plasma Physics, Nagoya University. Valuable comments were also given to us by Drs. W. L. Wiese of the National Bureau of Stand-
1975) 11. R. L. Kelly
and D. E. Harrison,
AND NUCLEAR
ATOMIC DATA DATA TABLES 19,301(1977)
12. B. C. Fawcett, Theoretical oscillator strengths for 2s22pn-2s2pn+’ and 2~2p”+‘-2p”+~ transitions and for 2s22pn “forbidden” transitions. Be I, B I, C I, N I, 0 I series,Z 5 26, ATOMIC DATA AND NUCLEARDATA
197
Atomic
TABLES 22,473
Data and Nuclear
Data Tables,
(1978)
Vol. 23, No. 3, March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
EXPLANATION FeVIII, etc.
FeXXII
8% 8:: 3,2
f3P”)4s
$0
112
FeXXVI
,
for FeVIII-FeXXVI
OF DIAGRAMS
Ion species of iron, Fe +7, Fef25, etc. According to conventional expression in spectroscopy, Fe1 indicates the first spectrum, that is, the spectrum of the neutral atom which was first identified, Fe11 the second spectrum belonging to singleionized ion, and so on
II-Sequence, HeSequence, etc.
The relevant ions have the same electronic urations as those of neutral hydrogen, helium, etc.
Ordinate
Energy of the levels in cm-’ and eV. Transition wavelengths are shown in angstroms
‘S, ‘PO, etc. (‘/;, 1/2) 2[1h], etc.
Configurations of initial and final states. Under FeIX (A sequence) and FeXVII (Ne sequence) ‘S, P, etc., indicate LS coupling, and (l/i, M), 2[1A], etc., indicate ji coupling
Limit
The ionization
11013ooo
Normal vertical type, light horizontal lines: energy level value, in cm-‘, calculated from observed wavelengths in present compilation
4s
Orbital
1%
J-value
37.66
Wavelength,
842930 837750
Bold vertical type, heavy horizontal from Reader and Suga?
(T)4s
Configuration of parent argon core to which a 4.r electron has been added, resulting in configurations 2Po and 4Po
312,
‘95
limit,
configneutral
in cm-’ and eV
of excited electron
in A
lines: values
J-values
IIT
FeVIII
8s s;x @a-.
Italic
2047904 1941046
vertical type, heavy horizontal from Fawcett4
lines: values
E+$g+$ FeXX 198
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3, March
1979
K. MORI,
M. OTSUKA,
132.85
121.83 118.66
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
Heavy vertical lines: resonance transitions with absorption oscillator strengthf 2 0.1. The choice f 3 0.1 is rather arbitrary, but gives a fairly reasonable clue for estimating spectral intensities in various plasmas
FeXX
2 s ‘j 6s $
l/2
Tr
XTY,Z
In FeVIII, x means that the level energy is measured from the x level, which is not yet absolutely determined in energy, because those groups of levels including x have no transitions connected to the ground level. x is used in FeVIII, XII, XIII, XIV, XIX, and XX. y in FeXII and FeXIV and z in FeXIV represent different groups of lines with the same meaning as x. In the case of FeXIX and FeXX, thex level is not shown, because x means small ambiguities in this case. Especially in 2s2p4 9 of FeXX, Reader and Suga? did riot specify absolute energy values, but Fawcett (shown in italics) could determine the absolute values by means of identification of the intercombination line
3P5(2p”) l 3d2(3P)
The configuration
I
FeVIII
3pw=-,~!3 l 3d’f’P)%%
~P”(~P”) 3d2 (“P). The expressions ~P~(~P”) 3d2(3P) 2P”, ~P”(~P”) 3d2(3F) 2Do, 3p5 (“PO) 3d2(3F) 2Fo are adopted from the tables by
312 l/2
Reader and Suga?
r
FeVIII
3P, 3D 3s3p34d
3s3p3 4d 3P and/or 3D
3P,3P 3s3p3d2
3s3p3d2 3Po and/or 3Do
FeXIII
199
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3, March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198 for Explanation of Diagrams I *P
*PO
*D
’ I
*F”
*Do
4po
I
4Do
4F0
Fe VIII (K-Sequence)
200
Atomic
Data end Nuclear
Data Tables,
Vol. 23. No. 3. March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII- FeXXVI See page 198for Explanation of Diagrams
‘P”
(‘h.‘/P
IDo
IF0
1F 1G P/z,%) (‘h,%)
3P0 (%,‘/P
1
I
Fe IX(A-
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3, March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII- FeXXVI See page 198for Explanation of Diagrams
r
( 2P0
1
2D
2D” I
7
i I
-
Fe X (Cl -Sequence)
202
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3, March
1979
K. MORI,
M. OTSUKA,
Grotrian
and T. KATO
Diagrams
for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198for Explanation of Diagrams
2F
2F”
2G (
2G”
I&
4P
14P014DoI
4F
T
1
Fe X (Cl - Sequence)
203
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3, March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII- FeXXVI See page 198 for Explanation of Diagrams
I i 3D
I
3D”
3F
I
Fe XI (S -Sequence)
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3. March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIIIFeXXVI See page 198 for Explanation of Diagrams I
3G”
j
‘PO
I
1‘D I
T
I
‘D”
‘F’
Fe XI (S-Sequence)
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3. March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVXXX-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198 for Explanation of Diagrams
49
4P
4D
4Do
4/=
4F“
-0
2s
2P
2P0
s B 5/z1: ‘PIG ei r
I, :;
D $!Tl-
-
1
Fe XII (P-Sequence)
206
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3, March
1979
K. MORI,
M. OTSUKA,
Grotrian
and T. KATO
Diagrams
for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198 for Explanation of Diagrams
43
I
I
I
I I
I
*Do
w ..c ,.
Fe XII (P-Sequence)
207
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3, March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIIIFeXXVI See page 198 for Explanation of Diagrams T
39
3P
I
I 3DI
3P0
3D” I
I
Fe XIII (Si -Sequence)
208
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3, March
1979
K. MORI, M. OTSUKA,
Grotrian Diagrams for FeVIII-FeXXVI
and T. KATO
DIAGRAMS FOR FeVIII-FeXXVI See page 198for Explanation of Diagrams
3F
3F”
36
1s
‘P
‘PO
‘D
‘Do
[
‘F”
/
‘G
c
--M
-
18
-
73
-18
200
-1,
( <
-70
,ilob --Bo
1
---a0 -3
1x106
-30
-2
‘.,I?
-20
xro”
-7
-
10
Fe XIII (Si -Sequence)
209
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3. March
1979
K. MORI,
M. OTSUKA,
and T. KATO
DIAGRAMS
Grotrian
I
2P
for FeVIII-FeXXVI
FOR FeVIII-FeXXVI
See page 198 for Explanation
2s
Diagrams
I
of Diagrams
2D
E 2D” I
2F
$
Fe XIV (Al - Sequence)
210
Atomic
Data and Nuclear
Data Tables,
Vol. 23, NO. 3, March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198for Explanation of Diagrams
2F0
( 49
) 4P
/
4pO
I 4DI 4FI -
18
-
I6
-14
--II
-10
-8
-6
-4
-2
1,
Fe XIV (Al - Sequence)
211
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3. March
1979
K. MORI, M. OTSUKA, and T. KATO
GrotrianDiagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198for Explanation of Diagrams
‘F”
3s
3PO
P ” -I
a :
E I
Fe XV (Mg-Sequence)
212
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3, March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198 for Explanation of Diagrams
3F0
3D
-
-
=
= -
36
Fe XV (Mg - Sequence)
213
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3, March
1979
K. MORI,
M. OTSUKA,
and T. KATO
DIAGRAMS
Grotrian
Diagrams
for FeVIII-FeXXVI
FOR FeVIII-FeXXVI
See page 198 for Explanation of Diagrams
!I
1.1d-
SO-
-
L--
.&.!G
Fe XVI (Na -Sequence)
214
Atomic
Data and
Nuclear
Data Tables.
Vol. 23, NO. 3, March
1979
K. MORI, M. OTSUKA,
Grotrian Diagrams for FeVIII-FeXXVI
and T. KATO
DIAGRAMS FOR FeVIII-FeXXVI See page 198for Explanation of Diagrams I 2D
I
I ’ 2D=’
2F0
Fe XVI (Na -Sequence)
215
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3, March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198for Explanation of Diagrams
lPO ’ lPO
I lD
I lDO I
t 5
W’
-
i
I!
I’ ::
a2 a*
I
E
I Fe XVII
-
(1Ve - Sequence) 216
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3. March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198 for Explanation of Diagrams
3P0
3D” WI0
I cm-
a”
OXlo” --Iml
0x10” -
f 5 5
-low 8.10”
7”ld
--em
6.100 -
5rrd ---Ma
-
-
k
XVII
Je - Sequence)
217
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3, March
1979
Grotrian Diagrams for FeVIII-FeXXVI
K. MORI, M. OTSUKA, and T. KATO
DIAGRAMS FOR FeVIIIFeXXVI See page 198 for Explanation of Diagrams
*PO
2P
WY r I/?’I’ E! f !?J
n c
-
Fe XVIII (F-Sequence)
218
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3. March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198for Explanation of Diagrams
2D
I I 2F
4P
Fe XVIII (F -Sequence)
219
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No
3. March
1979
K. MORI,
M. OTSUKA,
Grotrian
and T. KATO
Diagrams
for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198 for Explanation of Diagrams
1D
‘P” I
‘F’ I
-?
-
Fe XIX (O-Sequence)
220
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3. March
1979
K. MORI,
M. OTSUKA,
Grotrian
and T. KATO
Diagrams
for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198 for Explanation of Diagrams
1
3D”
3P0
i
Fe XIX (O-Sequence)
221
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3, March
1979
K. MORI, M. OTSUKA, andT. KATO
GrotrianDiagramsfor FeVIII-FeXXVI
DIAGRAMS FOR FeVIII- FeXXVI See page 198for Explanation of Diagrams
2s
2P
2D I
4 I
L T
2 2
S/2. 11 3/2’
I
=
=
-
-
= =
Fe XX (N -Sequence)
222
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3, March
1979
Grotrian Diagrams for FeVIII-FeXXVI
K. MORI, M. OTSUKA, and T. KATO
DIAGRAMS FOR FeVIII-FeXXVI See page 198 for Explanation of Diagrams
XP
I
2F
4SO
I
I
3123 . -
-
Fe XX (N -Sequence)
223
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3. March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIIIFeXXVI See page 198 for Explanation of Diagrams I
I ‘D
‘P”
‘D”
Fe XXI (C-Sequence)
224
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3. March
1979
K. MORI,
M. OTSUKA,
Grotrian
and T. KATO
Diagrams
for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198 for Explanation of Diagrams 1
3DD
3PO
3P
) 3F
/
3F”
1
I
Fe XXI (C-Sequence)
225
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3, March
1979
K.
MOFU, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIIIFeXXVI See page 198 for Explanation of Diagrams
2s
29
2P
2P0
I
&u
-
Fe XXI I (B - Sequence)
226
Atomic
Data and Nuclear
Data Tables,
Vol. 23, NO. 3, March
1979
Grotrian Diagrams for FeVIII-FeXXVI
K. MORI, M. OTSUKA, and T. KATO
DIAGRAMS FOR FeVIII- FeXXVI See page 198 for Explanation of Diagrams I 2D0
I
I 2F”
I 4SO
I
4P
4D”
i
I
I
I P fJ
Fe XXI I (B -Sequence)
227
Atomic
Data and Nuclear
Data Tables,
Vol. 23. NO. 3, March
1979
Grotrian Diagrams for FeVIII-FeXXVI
K. MORI, M. OTSUKA, and T. KATO
DIAGRAMS FOR FeVIII- FeXXVI See page 198 for Explanation of Diagrams
‘P”
‘D”
‘D
‘F”
I QS’ZP
1
(Be -Sequence)
228
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3, March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII- FeXXVI See page 198for Explanation of Diagrams
3s I
3P
3DO
3D
3PO
I
I
3Fo
I
I
3
4
241 r ax
B c
f
2pY5
-
E
-
-
Fe XXI I I (Be -Sequence)
229
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3, March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII- FeXXVI See page 198 for Explanation of Diagrams
I I
2po
2P
20
I
f J
1 2F” I
x
( 4P I
an
1 4p
I ,aM
= -
-
Fe XXIV (Li -Sequence)
230
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3, March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198 for Explanation of Diagrams
‘PO
‘D
‘F”
3PO
3s
30
3F”
Fe XXV (He-Sequence)
231
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3. March
1979
Grotrian Diagrams for FeVIII-FeXXVI
K. MORI, M. OTSUKA, and T. KATO
DIAGRAMS FOR FeVIIIFeXXVI See page 198 for Explanation of Diagrams
1
2P0
I K -I In-
t ; J
c I/?-
t
Ja 1/z-
0 -m
II-
-
Fe XXVI (H -Sequence
232
Atomic
Data and
Nuclear
Data Tables.
Vol. 23, No. 3. March
1979
K. MORI,
IP A f i 1.2841°
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
EXPLANATION
OF TABLES
for FeVIII-FeXXVI
Ionization potential, in electron volts Wavelength in A Absorption oscillator strength Statistical weight of lower state Radiative transition probability in set-’ 1.284 x 1O’O
The sixth column gives the numbers of the relevant references. An * indicates that the reference is for oscillator strength or transition probability
233
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3, March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables VIII
Fe
(K - Seauence)_
IP = 151.06
x 370.427 365.873
223.870
Configuration
3p64p2p
3/z 2P
4p2P 2P
196.046
3d2Do
194.762
187.225
186.609
185.225
168.933
168.548
168.176
167.488
6
5s
0.264
0.1321
1.2841°
47:151,152,159
SO
0.267
0.1337
6.692'
47:151,152,159
0.049
0.02443
6.503'
47:151,152,159
0.049
0.02462
3.325'
47:151,152,159
l/2
0.103
0.05144
1.785
2P
3/Z
0.248
0.0619
1.6211'
47:151,152,159
2P
3/z
0.041
0.01036
1.821'
47:151,152,159
6s 2 2
Y/z T/z
4P2P
3/2-
5/2
D;/2-
2 53 22 -3~ ( F)3d F;,2 3d D5/2
6,18,43,47:77,95,114,119, 120,121,151,152,172*
0.501
6,7,8,18,43,47:77,95,108,114, 119,120,121,151,152,172:227, 236
P;,2
0.467
6,8,18,43,4~77,95,114,119, 151,152,172
P'
0.563
6,8,18,43,47:77,95,114,119, 151,152,172*
0.678
6,7,8,18,43,47:77,95,10~,114, 119,120,121,151,152,172,227, 236
0.658
6,7,8,18,43,47:77,95,108,114, 120,121,151,152,172:236
F;/2
2
2 F;/2
D5/2-
3 P)3d 22
2
2 D5/2-
2 3d D5,2-(3F)3d22Do
2 3/2-
130.939
2D
D;/2
4f2Fo
3d2D 5,2-(3P")4s4P;,2
119.37
3d2D
3/z
712
2 FO 512
3/2-
120.31
2
3/z
512
2D
2D
118.28
2 3d D5,2-
6,47:95,151,152,159,172*
0.4349
1.12811
6,47:95,151,152,159,172*
44,104,152 2
44,104,152
p;/2 2 PO
44,104,152
3/2
(3F")4s4Fa 4
D3/2-
1.20011
-(3P")4s2P;,,
3/2-
2
0.4132
44,104,152
D5/2-
118.63
47:151,152,159
0.522
2
3,2-(
10
6,8,18,43,47:77,95,121,151, 152,172*
D3/2-
3d2D
References
0.025
2
2 3d D5/2-
117.65
s;,2
2
l/2
1/2-
131.242
118.89
A
1/2-
2 DO 2
f
2
3/2-
222.189
195.476
-3p
gf
eV
44,104,152
712
44,104,152
FO
5/z
234
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3. March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables
F
VIII
(K - Sequence) IP = 151.06
.A 117.18
Configuration 3d2D
116.43
2D
3
F")4s2Fo
f
A
5/2-
44,104,152
FO
44,104,152
FO
44.104.152
512
2
5/2
2
3d D5,2-(3D0)4s4Do 2
114.05
2D
44,104,152
712
D5/2-
4 DO
44.104.152
5/z
4
DO
44,104,152
5/z
3/2-
3d2D ,,,-?F')~s~F"
44,104,152
712
112.70
44,104,152 2D
112.49 112.47
2D
98.374
93.616 93.469
2 3/22
5f
2
44,104,152
DO
44,104,152
F;/2 2
D3/2-
2 D5/22D
3d2D
DO 312
2 D5/2-
3d
44,104,152
5/2
2 3d
DO
5/2
5/2-
D5/2-
107.872
98.548
2
2
112.25
108.083
eV
References
7/2 2
D3/2-
114.29
112.93
-(
2
116.18
114.56
512
gf
F;/2
6f2Fo
712
2 3/2-
F;/2
2 5/2-
2
7f
F;/2 2
D3/2-
FO
5/2
1.313
0.1641
7.0291°
47:151,152,159,174,233
1.036
0.1727
6.5991°
47:151,152,159,160,233
0.642
0.08025
4.1361°
1,47:151,152,159
0.505
0.08422
3.881
0.362
0.04537
2.6021°
0.286
0.04771
2.442
235
10
1,47:151,152,159
1,47:151,152,159 10
Atomic
1,47:151,152,159
Data and Nuclear
Data Tables,
Vol. 23. No. 3. March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES.
Transition
Data
See page 233 for Explanation of Tables Fe
1X
(A
- Sequence) IP = 233.6
a 244.912
Configuration
gf
f
6,8,51,77,95,114,146,217
ho-
3
71
p;
230.48
3p61so-
3d3F;
218.93
3p61so-
3dlD;
217.108
3p61so-
3d3D;
171.075
3p61so-
3dlP;
118.27
3d1F3-4flG4($,$
116.42
3d3D;-4f3F32[$l 3
D;-
3d1D;-4fh3(+,$)
114.111
3 3d F;-4f
113.80
112.375
3 F”3 3 F;-
6,8,51,77,95,114,146,217*
114,171,181
27
217*
6,8,51,77,79,87,95,114,146, 148,151,152,215,217 3.72
3.720
2,6,7,17:18:43,51,52,77,79,84: 87,95,103,108,114,119,120,121, 146,151:152,172:199,217,227, 236 90,219
2.28 3F42
115.353
114.027
References
3s23p61SO-3s23p53d3P;
241.739
115.996
A
90:152,219,226 152,226
[;I
1.97
90:152,219,226
3G3 29[?I
1.85
90:152,219,226
3G42 $1
2.80
90:152,219,226
4.35
90:219,226
3
G5
29
'51
3d3P;-4f3D22[$]
219,226
3D32
$1
112.017
3 PO2 3 Pi-
3D12
$1
111.791
3Po-
3D22
$1
1.18
90:152,219,226
111.713
3 PO-
3D12
$1
0.56
90:152,219,226
112.096
1 0
105.236
3p6+S
103.580
83.444
eV
90:152,219,226 90,152,219,226
J 148 .
0.147
6,84:90:103 174,219,2335242
3p61so-~2P.~4slP;~3,~~.
0.229
0.229
6,84:90:103,151:152,160,172~ 219,233:242
3~61so-~2P")4~3P~2[~lo
0.469
0.469
1,6,84:90:152,172:219
0
-(2Po)4s3Po(z
2.05
1 2'2
$
236
Atomic
Data end Nuclear
151:152,160,172:
Data Tables,
Vol. 23. No. 3. March
1979
Grotrian Diagrams for FeVIII-FeXXVI
K. MORI, M. OTSUKA, and T. KATO
TABLES.
Transition
Data
See page 233 for Explanation of Tables
Fe h
1X
(A - Sequence)
Configuration
82.423
3p61SO-(2Po)4$P;2
73.618
3p61s
0
-(2P")5s3Po(z
[;I”
1 2‘2
gf
f
0.241
0.241
A
References
1,6,84:90:95,152,172:219
$0
1.152.219
72.85
1,152
237
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3. March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES. Transition Data See page233 for Explanation of Tables X
Fe
cca - Sequence) IP = 262.1
Configuration
.A
6374.51
3s 2 3p 52p.
365.57
3p52P
gf
-3s23p52p.
3/2 l/2
l/2
2
345.750
2 PO3/2-
sl/2
eV
Peferences
55.89
l/2
-3s3p62S
A
f
48,142,177:202
0.0695
0.03
1.60'
8,17:18:49:~1,7~,86,87,89,114, 151,152,192,234
0.141
0.03
3.66'
8,17:18:51,63,77,79,86.87,89, 95,114,119,151,152,175,192: 234:236,242
190.044
3P52PO ,,,-(1D)3d2Sl,,
0.456
0.160
10
4.37
6,8,20:49:51,77,79,84:87,95, 114,119,148,151:152,172:192*, 227
184.542
2 PO 3/2
28
m
1.25
0.59
l.2711
6,7,8,24:51,77,79,84:87,95 108,114,119,151:152,172:19;: 227,236
182.308
3p52Po l,2-(1D)
3d2P
2
180.407
2 p;/2-
177.243
pl/2
2 PO 3/2
2P
2
175.474
IP
p;/2-
175.266
3p
52
P;,2-(1D)
2D
p;/2-
170.61
2 PO
312
l/2
3d2D3,,
2
174.534
312
-
2D
3/2
512
3/2
144.328
?D)
3d2F 7,2-
?D)
4p2D’
140.678
(‘0)
3d2G 7,2-
I'D)
~P’F”~,~
2
139.868
S/2
2
G9/2-
F’7/2
0.129
0.064
2.94g
6,8,24:43,79,83,84:87,95,151*, 152,172:192*
1.13
0.575
l.2811
6,24:43,77,79,84:87,114,151~ 152,172:192*
3.07
0.802
l.8011
6,7,8,24:43,49:51,77,79.84:87, 95,108,114,119,120,121,151~ 152,172:192:227,236
0.417
0.125
5.0110
6,8,24,43,79,84,87,95,151~ 152,172,192,227
3.41
2.01
2.0311
6,8,24:43,51,77,79,84:87,95, 114,119,120,121,142,151~152, 172:192:227
5.34
1.62
2.14
0.268
0.067
6.25’
11
6,7,8,2@,43,49,51,77,79,8@,87, 95,108,114,119,120,121,142, 151,152,172,19?',227,236 6,24:43L79,84:87,142,151,152, 172,192
0.26
901152
0.30
go:152
0.52
49:90:152
140.296
(3P)3d4P7,2-(3P)4p4D07,2
0.52
901152
137.027
(3P)3d4D7,2-(3P)4p4P05,2
0.25
go:152
104.626
(ID)
3.47
go:152
3d21' 7,2-'1D)4f2Gog,2
238
Atomic
Data and
Nuclear
Data Tables.
Vol. 23, NO. 3, March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables (ce - Sequence)
Fe X A
configuration
2
104.248
103.724
='1/2
( 3 P)3d 2 F5,2-(3P)4f2Go,,2 2
2 F7/2
?S)3d2D
GO g/2
5,2-h4f2Fo 2
102.829
102.348
2 F5/2-
103.164
103.319
gf
D
712 2
3/2-
FO
5/2
(3P)3d4F7,2-(3P)4f4G"9/2 4
102.095
4 F9/2-
101.846
4F
Goll,2
4 3/2-
G"5/2 4
A
References
1.86
49:90:152
2.17
52,90:152
2.43
90:152
3.29
go:152
1.96
49,90:152
2.96
go*
5.49
90*
1.56
go*
2.28
go*
101.733
4F
102.192
(1D)3d2Gg,2-~1D)4f2Roll,2
5.48
90:152
101.435
3 4 ( P)3d F7,2 -L3P)4f2G.g,2
1.38
49:90:152
100.026
3 4 ( P)3d D7,2 -(3P)4f4Fog,2
3.88
6,49:90:152
97.838
3ps2po 2
97.122
97.591
3p
52 2
96.788
5/2-
GO
g
-(3P)4s4P5,2
3/2 PO 3/2-
p;/2
4P
3/2
- t3P) 4s2P3,2
p;/2-
2
pl/2
96.122
2 PO 3/2-
2P
95.338
2 PO 3/2-
2P
95.374
7/2
312
1/2
3p 52 P;,2-(1D)4s2D3,2
0.014
0.003
6,67,84:90:95,151:152,172:174
0.201
0.05
6,49:67,84:90:95,151:152,172~ 174,233
67,84:90:151,152,242
0.041
0.211
0.118
67,84:90:151,174,242
0.473
0.118
6,49:67~84:90:95.151,152,172, 174,233
0.161
67,84:90:151,152,174,204
0.290
0.145
0.374
0.093
6,33,49*52,67,84:90:95,151, 152,172!174,233:242
0.151
0.076
6,84:90*
0.856
0.214
6,84:90*
6,67,84:90:95,151,152,172:
242 2
94.012
78.769
77.865
3p
52
PO 3/2-
2 D5/2
P;,2-(3P)4d2D3,2
2
2 p;/2-
D
5/2
239
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3. March
1979
K. MORI, M. OTSUKA, and T. KATO
TABLES.
Grotrian Diagrams for FeVIII-FeXXVI
Transition
Data
See page 233 for Explanation of Tables Fe h
X
ccc
Configuration
2
77.812
PO
312
52
2
-
D3/2
3p
77.728
3p52p;,2-(3p)4d4F5,2
76.822
3p
2
76.006
Pi,,-oP)4d2P3,2
P;,2-(1D,4d2Pl,2 PO
52
3p
76.495
3P52PO l,,-(‘0)
75.685
2
1/2-
76.627
2
‘3/2
P;,2-?P)4d2F5,2
p;/2-
f
gf
78.151
52
- Sequence) A
References
0.29
0.073
90*
0.16
0.04
go:152
0.15
6,84,90*
0.31
0.15
90:95,152
0.451
0.113
6,84,90:95,152
0.26
4d2D 2
312 D5/2
84,90:152
0.469
0.23
6,84:90:151,152
0.410
0.103
84:90:151,152
240
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3. March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables Fe
Xl
(S - Sequence) IP = 290.3
h
gf
Configuration
f
A
ev References
7871
33.8
129,131,142,177:202,216
3987
10.26
177:.202,216
1467.4
369.23 358.64
356.55
352.680
348.97 341.115
308.61
202.723 202.67
192.819
188.219
3p41so
3p43p1-
772.9
3p43p1-3s3p53p; 3
3 pO-
'T 3
3 pl-
';
3
p;
pl-
3 p2-
3p41c12-3s3p
51
0.12
8,1~:51,79,86,87,89,151,152,
6,8,18:51,63,11,19L86,81,89,
95,114,151,152,234,236
3
3
8,18:79,86,87,89,151,152,234* 8,1f$51,79,86,87,89,151,152, 234
0.56
'Z
3
0.19 0.15
234
3 p2-
122,145,146,152,177:202,207, 216
PO 1
Pi
0.068
18:63,79,86,87,89,151,152,234
0.20
6,8,18,51,79,86,87,89,95,151, 152,234:236
0.61
8,79,86,87,89,151,152,234*
3p41~2-(2Do)3d3P; 1
6.95 3
D2-
~P~~P~-(~V')~~~P; 3
3 p2-
188.305
3p43P2-(2P")3d3P;
184.800
~P~~D~-(~IY),~%;
6,89,95
pi
p;
0.161
0.053
6,8,24:77,79,84:87,89,95,98, 114,119,151:152,172:227
0.152
0.15
6,8,24:79,84:87,89,95,148,151~ 155,172:227
7,65,77,79,108,119,125,151, 172,202,227,236 3.14
0.538
6,8,24:51,77,79~84:87,89,95,
114.151.152.172
184.41
3p41S0-(2D0)3d1P;
2.19
182.173
3p43Pl-(4S0)3d3D;
2.89
24:79,87,89,152
0.92
6,8,24:51,77,79,83,84:87,89, 95,108,114,119,120,121,142, 151:152,172:227
181.140
180.600 180.407
3
3 pO-
3
"i 3
pl3
D; 3
p2-
9
1.31
6,8,24,51,79,84L81,89,95,119,
1.39
120,121,142,151,152,172
0.91
0.35
6,8,24:79,87,89,142,152,172*
5.30
1.15
6.7.8.24:51,77,79,84:87.89,
95,108,114,119,120,121,142, 151,152,172:227,236
241
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3, March
1979
K. MORI, M. OTSUKA, and T. KATO
TABLES.
Grotrian Diagrams for FeVIII-FeXXVI
Transition
Data
See page 233 for Explanation of Tables Fe Configuration
A
3
178.060
179.762
123.822
(‘Do)
3
123.49
123.572
(2P")3d3F;
121.747
(4So)3d5D;
t2D”)
3d3G; 3
92.81
(4So)3d5D;
91.63
5
91.63
91.394
90.345 90.205 89.178
Do
3
5
D;
-
Da
1
(2D”)
3d3F; 3
-
-
- t2Do)
F;
-
3F;
-
3
plP2-
1.31
6,7,8,24:51,77,79,84:87,89, 95,114,119,120,121,151,152, 172:236
6,90:152
0.41
90:151:152
0.23
90:152
0.45
90:152
2.77
90:151:152
F3
2.13
90:151:152
4f31i6
6.63
90:152
4.26
go:152
3.98
90:152
5.66
90:152
F4
3.86
90:152
F3
2.47
90:152
F2
1.44
90:152
3.84
90:152
G4
2.89
go:152
3G 3
2.27
90:152
p3
3
3
H5
38
4
5 5 5
4f3G5 3
3p43Po-(4So)4s3S; 3
5.64
90:152
-(4S")4f5F5 5
91.63
91.472
G' 4
3Go 3
92.87
91.63
-('DO)
6,8,24,51,79,84,87,89,95,108, 119,120,121,142,151,152,172
0.55
-(2P)4f3F4 -
0.19
0.27
-
2
0.72
*4
5
3
s;
ev References
F3
3
Go 5
Do
A
go:152
Go 4
D;
f
IP = 290.3
0.25 3
-(4So)4p5p2
3
(‘De)
3d'F;
- C2Do)4p3F2
3d'D;
92.8
91.733
t2D”)
D;
-(2P")4p3D2
5
121.419
92.87
p2-
3d3G; 3
gf 3
3p41D2-
123.49
92.9
(S - Sequence)
Xl
0.08
0.091
66,90:151:152,172:174,242
0.20
0.091
66,90:151:152,172:174,242
0.459
0.091
6,66,84:90:95,151:152,172~ 242
242
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3. March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables Fe
x
Xl
(S - Sequence)
Configuration
gf
f
A
References
89.771
3p41D2-(2D~)4s3D;
6,152,174,233,242
89.185
3p43P2-(4S")4slP;
152,174,233,242
89.104
3p41D2-(2D")4slD;
88.167
3p43Po-(2Do)4s3D;
88.029 87.995 87.025
86.772
3
3 pl-
3 pl3
"2" 3
P23
9 3
p2-
86.513
3~41D2-(2P")4slP;
86.419
~P~~P~-(~D")~s~D;
73.2
3p43Pl-~4S.)4d3D;
72.635
5 3
3
p2-
D;
0.786
0.157
6,66,84:90:95,152,172:233, 242
0.059
0.059
66,84:90:151:152,172:174
0.14
0.030
66,90:151:152,172:242
0.134
0.044
66,84:90:151:152,172:242
0.203
0.04
6,66,84:90:95,151:152,172~ 174
p.434
0.086
6.66,84*90:95,151:152,172: 174,233:242
0.28
66,90:152
66,90
3
D;
0.315
0.105
84:151:172
0.905
0.181
84:90:95,119,151:152,172:174
72.310
~P~~D,-(~D")~~'D;
0.623
84:90:151,152,174
72.166
3~~~D~-(~D')4dlF;
1.62
84:90:151
243
Atomic
Data and Nuclear
DataTables.
Vol. 23, No. 3, March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-
FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables (P - Sequence)
x11
Fe
IP = 330.8
2169.7
3s
2
3P
1349.57
3P
1242.15
3P
34
Q2
34
34
q2-
3p32P
3p34s;,2-3s3p44P5,2 4
4
3p 32 q2 2 D’
3~
3~
193.517
6,8,17:18:51,77,79,86,87,89, 95,114,151,152,234:236
0.33
0.122
6,8,17:18:51,63,77,79;86,87, 89,95,114,151,152.234,236
0.17
0.061
6,8,17:18:51,63;79,87,89,95, 151,152,187,234
8,79,86,87,89,152,234 79,86,87,89,92,152
3/2
6,8,51,79.86,87,89,95.152 79,86,87,89,152
1/2
6,8,51,79,87,89,95,151,152
\D;,2-(3P)3d;3,2
3p
32
6,8,51,77,79,87,89,95,114, 151,152
'3/Z 2
D;/2-
Pi/z-
6,8,51,79,87,89,95,151,152
p1/2
?D)
6,8,51,79,87,89,95,152
3d:p1,2
2 p;/22
198.58
195.127
32
0.183
P3/2
2P
2
201.134
195.19
42
D;,2-3s3~
1/2
0.48
D5,2
2D
3/2
51,79,87,89,151,152
D5,2
D;/2-
211.749
196.649
-
42
29,30,122,145,146,152,202, 207,216
3/2
2
217.283
201.749
-3s3p
2 DO 3/2-
283.64
219.453
32
42
4P
T/2-
29,122,145,146,152,202,207. 216
p1/2
4P 3/2
T/2-
335.06
290.997
3/2-3s3p
pi/2-
3P
32
D;,2-(1D,
6,8,51,77,79,87,89,95,114, 152
'3/2 2P
6,8,77,79,87,89,95,114,152
3/2
6,8,51,79,87,89,95,152
3d2D5,2 2
2 D;/2
3/2-
79,89,148
D3/2
3p34S;,2-(3P)3d4P
4Sa
ev
References
32 3p
364.477
346.855
?t
113,122,145,146,202,207,216
Q2-
3p32p.
352.115
f
-3s23p32D5,2
382.83
338.27
gf
Configuration
x
4P
50
2.37
3/2
1.67
3,6,7,8.51.77.79,81,84:87
0.592
89,95,108,114,119,151~152; 172:227,236 3,6,7,8,51,77,79,S1,84:87, 89,95.108,114,119,151~152, 172:227,236
0.417
Atomic
Data and
Nuclear
Data Tables.
Vol. 23. No. 3, March
1979
K. MORI,
and T. KATO
M. OTSUKA,
Grotrian Diagrams for FeVIII-FeXXVI
TABLES.
Transition
See page 233 for Explanation
XII
Fe
gf
192.402
4 SO
191.051
D 3p 32 P3,2-(3P)3d2D5,2 2
188.219
188.45
3~
32 2
186.889
2
l/2 -
?D)
2 ('P,
108.440
4F 9/2
85.669
(1S)3d2D
85.477
+D)
2
12 ( D)3d
4
4F
84.52
4F
84.48
4F
B2.837 82.744
3p
32
7/2 5/2 3/2
6,8,77,79,84:87
79,87,151
go:152
0.35
go:152
0.47
go:152
2.59
90f152
6.04
6,90:95,152
3.67
901152
3.80
90*
2.30
90.
2.00
90*
4.69
go:152
- C3P) 4f4G;l,2
6.68
6,90:95,152
-
4 GO g/2
5.26
6,90:95
-
4 GO
3.41
6,90:95
-
4 GO
2.89
6,90:95
4s2D5,2
0.12
84,90:152
2D
0.31
go:152
-
4 DO
-
4 D’7,2
-
(1S)4f2F;,2
-
?D)4f2Ho
5/2
11/2 2
HOT/2
GO
7/-J
-
-t3P)4f4F;/, 4
-
P;,~-
2 PO 312
FOg/2
7/2 5/2
?D)
30
89,95,114,
119,120,121,1&52,172,227
0.23
2
84.48
5.68
go:152
-(3P)4f2G;,2
C3P) 3d4F g,2
87,151'
0.461
F,,2
D7/2
0.49
70
2F
-
3 4 ( P)3d D5,2
6,79,B7,B9,151,152
go:152
G7/2
F5/2
84.768
84.52
g/2
3,6,B,51,77;79,81,84:87.89,95, 114,119,151,152,172:227,236
0.14
2
84.86
84.85
512
3d2G
85.14
7/2
0.218
5/2
-(3P)4p4D;,2
4F
References
5/2
4p2F
Go g/2
3d4F5,,
712
2F
-
-?D)
108.605
85.14
*F
DO
3d2G;,,
A
3/2
(3P)3d2F5,2
D;,2-
312
110.591 108.862
2D
PO
Do
0.875
1/2
f
6,8,51,79,87,89,95,151,152
5/2-
182.856
110.732
4P
3/2-
of Tables
(P - Sequence)
Configuration
h
Data
245
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3, March
7979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables
Fe
2
Do 5/2 D$2-
3p34s' 4
80.022
3,,-(3P)4s4P so 3/2
4So
80.300
3p3'Do 5,2-
80.160
68.382
3p
67.821
3p
32
32 2
67.702
+D)
90:152,242
l/2
0.14
0.031
6,90:95,151:152,172*
0.26
0.063
6,90:95,151:152,172:242
0.38
0.095
6,84:90:95,151:152,172:2)3* 242
2
3/2-
D3/2
P~,2-(3P)4d2D3,2
D;,2-(3P~4d2F5,2 Do
3p32Po 1,2-(
67.291
3p3'Do
67.164
3p
66.960
3p
66.526
3p
32
0.03
~s’D~,~
Do
67.972
32
3/Z
p5/2
2
-
S/2
32
90:152,242
'3/Z
3/2-
F7/2
12 D)4d
D5,2
5,2-(3P)4d4D7,2
P;,2-(
12 D)4d
Sl,2
D;,2-(3P)4d2D5,2
4d:F7,2
D;,,-?D)
2
66.43
D;/2-
F5/2
3p34so 3,2-(3P)4d4P 4
65.905
32
so 3/2 12 D)4d
66.225
3p
66.047
3p34S;,2-(3P)4d4F
65.805
3p3'Do ,,,-?P)4d2P
D;,2-(
5/Z 4P
References
0.58
4
79.488
2
4
A
go:152
'3/Z 2P
f
0.38
l/2
2
2
81.651
66.298
gf
(3P)4s2P
3p32D;,2-
81.943
80.510
(P - Sequence)
Configuration
h
82.226
XII
312
D5,2
512
3/z
0.51
84:90:151,152
0.23
90:152
0.48
go:152
0.55
go:152
0.18
go:152
1.17
go:152
1.25
go:152
0.15
90*
0.65
go:152
0.91
84:90:151,152
0.63
go:152
o-5' 0.53
0.131
84:90:151:152
0.13
90:151,152
0.17
0.64
90:152
0.16
89,90:152
0.13
246
go:152
Atomic
Data and Nuclear
Data Tables.
Vol. 23, NO. 3, March
1979
K. MORI, M. OTSUKA,
Grotrian Diagrams for FeVIII-FeXXVI
and T. KATO
TABLES. Transition Data See page 233 for Explanation of Tables x111
Fe
(Si
- Sequence) IP = 361.0
x
3388.5 2580
1213.0
Configuration
gf
f
3s23p23p2-3S23P21D2 3 pl-
1 D2
A
1.128
117:202,216
6.237
113,117:202,207
3p21so
3p23p1-
eV
References
122,145,146,152,207,216
0.22
368.12
0.03
l.lzg
10,79,8~,87,89,95,117:151,
152,234 359.85 359.63
348.184
321.59 320.93
312.29 311.552 303.47
3
3 pl-
D;
3
3 pl-
";
3
3 pO-
3P23P
D;
-3s3p33P"
2
3 p2-
p;
pl-
6,8,10,51,79,86,87,89,95, 117:151,152,234:236
1.14g
6,8,10:51,86,117:151,152, 2341236
8.7g8
87,117*
3.05g
8,10,51,79,86,87,89,117~ 151,152
1.74q
8,51,86,117*
4.108
8,10,86,117*
1.17q
10:86,87,117*
5.42'
8,79,87,89,117:151,152
4:60q
6,8,10,86,87,89,95,117:152
2.93lO
10,79,86,87,89,95,117:151. 152
0.09
0.062
0.23
0.046
p;
3
3 pO-
'i
0.41
256.42
3p21D
2
-3s3p31P"
1
251.949
221.830
1.319
'T
3p21so-3s3p3lp;
228.18
0.19
3
287.2
240.713
8,117:152,234*
3 pl-
3
318.21
246.210
2.9z8
1 3
3
0.04
3
3 3
pl-
3
3 pO-
";
0.87
0.99
0.198
3.171°
6,8,10,51,77,79,86,87,89,95, 114,117:119,151,152,172:227, 234*
0.54
0.180
1.671°
6,8,10,51,77,79,86,87,89,95, 114,117:119,151,152,172:227, 234*
0.16
0.16
6.65'
6,8,10,51,77,79,86,87,89,95. 114,117:151,152,172:234*
1.691°
87,117*
3.651°
6,8,51,87,89,95,104,117: 151,152
2.15'
6,51,117:152,234
3p21D2-3P3d3P;
1.34
216.88
247
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3, March
1979
K. MORI, M. OTSUKA, and T. KATO
TABLES.
Grotrian Diagrams for FeVIII-FeXXVI
Transition
Data
See page 233 for Explanation of Tables Fe
213.781
209.927
209.634
3p23P2-3p3d
Xl11
(Si
- Sequence)
3P;
0.58
0.116
1.7010
6,8,10,51,79,87,89,95,117~ 151,152
p2-
3 ‘;
0.16
0.032
8.2gg
6,8,51,79,87,89,95,114,117~ 151,152
3 pl-
3 ';
0.56
0.27
1.71
3
10
6,8,51,79,87,89,95,117~151, 152
202.056
3 pO-
3 ‘;
208.690
204.951
203.835
203.793
201.134
200.033
197.443
0.81
0.81
1.08
3p23P2-3p3d3D; 3
3 pz-
“;
p2-
3 D;
pl-
3 Di
3
3
3
3
pl-
D;
3 pO-
3 D;
10
4.39
6,8,10:77,79,87,89,95,114, 117:151,152
5.5010
6,8,10:79,87,89,95,117~151
0.31
0.062
1.171°
6,8,51,77,79,87,95,114,117* 151,152,1723219,234*
2.34
0.688
6.571°
6,7,8,10,51,77,79,81,84,87, 89,95,108,114,117,119,148, 151,172,227,234,236
1.07
0.244
3.441°
6,8,87,89,117:151,152,172: 234
0.90
0.30
4.121°
0.80
0.26
2.77
0.15
0.15
1.10
10
10
10
1.79
204.26
6,8~51,77,79,87,89,95,114, 117,119,151,152,153,172:234* 6,8,10,51,79,87,89,95,117: 151,152,172:234' 6,8,10:77,79,87,95,117~151, 152,172:234*
6,89,95,117*
196.531
3.35
191.24
1.3x10
107.384
1.55
90*
0.17
90*
98.826 98.523
3p3d3F;-3p4p3Dl 3
-5
7.121°
6,8,10,51,79,81,84:87,89,95, 117:151,152,172,227
8.055
8,77,79,87,89,95,114,117~ 151,152
F;-
3D2
0.28
6,90*
F;-
3D3
0.41
6.90'
93.387
0.14
go*
84.275
4.85
go*
98.128
3
248
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3, March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables Fe x
x111
Configuration
3p3d3F;-3p4f3G5 3
78.77
3
78.56
3
F;-
G4 3
F;-
G3
76.717
3P21D2
-3p4slP;
75.89
3P23P2
-3p4s3p;
75.887 76.48 74.845
74.327
3 3
p1 po
-
3 P2 -
PO 1
3 'iz
3P21D2
-3p4d'F;
62.975
3P23P2
-3p4d3D;
3
3 p1 -
D;
A
References
go*
6.54
89.90’
3.68
6,90*
3.28
90*
0.56
6,84:90:95,152,220,233
0.034
6,90:151:172:220,233,242
0.03
6,151:220,233,242
0.115
0.115
6,151:220,233,242
0.44
0.088
6,84:90:95,151:152,172:220. 233,242
PO 1
p;
1-
63.191
62.694
3
f
3.05
0.20 3
3
3P
- Sequence)
gf
81.161
78.462
(Si
0.17
6,90:151:152,220,233,242
1.78
84:90:151,152',220
0.94
0.13
84:90:151:152,220
0.77
0.26
84,90:151:152,220
249
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3. March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables
XlV
Fe
(An. - Sequence) IP = 392.2
x
5303.4
Configuration
3s
2
356.60
gf
2 3p P;,2-3s
3P2P0
2
3p
3/2 D5/2
2 PO
-
2
l/2 3p 2 p;/2
289.160
274.191
288.45
2
4P
270.512
2 3p p;/2
3/21/2-
2
257.385
PO
l/2
3s3p 22
2F
241.38
22
5/2
239.20
3s3p
232.20
3s3p22P-3s3p3d2Do
220.095
2 3~ p;,2-3d
2
pl,2
3/2
D;,2
3/2
0.04
6,8,11,51,77,79,86,87,89,95, 114,148,151,152,202,234:236
0.10
0.0047
6,8,11,51,79,86,87,89,95,151, 152,172:234'
0.35
0.215
6,8,11,51,77,79,81,86,87,89, 95,114,151,152,172,227,234
0.84
79,86,87,89,151,152,11*
2
0.579
0.127
6,8,11,51,77,79,82,85,86,87, 89,95,114,119,142,148,151, 152,172:227
1.81
0.40
6,8,11,51,77,79,82,86,87,89, 95,114,119,142,148,151,152, 172:227
0.366
0.16
6,8,11,51,79,82,86,87,89,95, 142,148,151,152,172:227
0.413
0.18
6,8,11,51,79,82,86,87,8?,95, 119,142,148,151,152,172
0.174
11:
151
0.806
11:
151
11,15
'E/2,7,2
151
2
D3,2
2 P$z-
0.19
81,119,148,151,11*
2 DO
D3,2,5,2-3S3P3d
6,8,11,51,63,79,86,87,89,95, 148.151,152,234:236
0.301
2
-
0.054
3/2
'3/2
F5,2-3s3p3d
6,79,87,89,95,151,152,234*
49
2 p;/2-
0.00122
0.26
79,86,87,89,151,152,11*
p1/2
2
252.190
0.01
0.58
2
-
11,177:202,217,240
3/2
2P
p;/2-
ev References
4so
22
-3s3p
2
264.779
l/2
3p 34 0 '3/2
5/2-
274.19
s1,2
28
3$3P24P 4P
219.135
22
p;/2-
280.69
242.49
D3/2
-3s3p
A
51.07
2 p;/2-
334.178
P;,2
3/2-3s3p22D
2 353.838
2
f
D5/2
0.352
0.072
6,8,11,51,74,77,79.81,87,89, 95,114,119,142,148,151,152, 172:195,227
1.26
0.50
6,7,8,11.51,74,78,79,8l,84: 87,89,95,108,114,119,121, 142,148,151,152,172*,227, 234,236
250
Atomic
Data and
Nuclear
Data Tables,
Vol. 23, No. 3, March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables
Fe A
Configuration
211.328
2 p;/2-
XlV
(At
2 D3/2
218.21
207.40
3p4p9
3s3p
22
3s3pZ2D
312
2 3d D5/2 2 D3/2
76.152 76.022
3s3p3d4F
72.80
71.613
11.15
-
2 4~ Po1,2
-
PO
-
4P 2
-
4f2F0 2
-
3/2
FO
512
g/2 4
GO
7/2
G;1/2
4s 2s
l/2
2
71.379
3~3~ 22
70.251
3s3p
24
-
s1/2
2
D5,2
-3~3~4s
P
-3s3p4s4po
512
P;,2
3/2
69.667
4P 5/Z
-
4p;/2
69.386
4P
-
4 PO 312
69.176
4P 3/2
-
4 p:/2
67.50
65.70
59.573
3s3p
22
l/2
11,90:151,152
0.25
0.04
6,11,90:151,152
4.88
11,90:95,152
3.42
6,11,90:95,152
3.99
go:152
3.23
go:152
7.54
90f152
0.25
0.06
11,84:90:152,204,220,233,242
0.13
0.03
11,84:90:151,220,233*
0.62
90:151,220
0.24
90:151:152,220
0.55
90:95,119,151:152,204,220
0.22
90:151,152,220
0.24
90:151,152,220
-3s3p4f2FD
D
3s3p 22 D
0.035
11,15
712
F5/24F 9/2-
-
0.14
p'1,2
4
p;/2
6,?,8,11,51,74,78,79,81,84: 87,89,95,108,114,119,121,142, 148,151,152,172:208,227,234, 236
3/2
2
69.66
0.55
References
-3s3p3d2Po
4
2 3P p;,2
0.728
A
79,87,89,152
7/2-3s3p3d4Go
72.95
f
7/2
2 %/2
gf
-3s3p3d4D
2
91.009
73.08
512
2 3d D3,2
91.273
81.20
D
50
- Sequence)
3/2
2 3P po3,2
-
4f2P0
-
4d2D
6
11.15
512
5/2
0.98
0.25
251
11,52,6~,84:90:95,119,151, 152,172,174,181:182,220, 233,242
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3. March
1979
K. MORI, M. OTSUKA, and T. KATO
TABLES.
Grotrian Diagrams for FeVIII-FeXXVI
Transition
Data
See page 233 for Explanation of Tables Fe
2 3P P;,2
58.963
58
(An. -
configuration
A
58.00
XlV
3S3P22P
-
4d
2
D3/2
Sequence)
gf
f
0.55
0.25
A
P.eferences
11,52,64,84:90*95,119,151, 152,172:174,18;:182,220,233, 242
151,220
- 3S3@d2D0
3s23p2P"-3s3p4d2D
220
252
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3, March
1979
K. MORI,
M. OTSUKA,
Grotrian
and T. KATO
Diagrams
for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables
Fe
481.52
3s3p3p;
-3s3p3po
3s3plP;
- 3p 21
417.24
3s2
400.65
3s3d3Dl
323.57
321.76
3s3p3p; Pi
0.0035
3s3plp;
D2 1 D2
- 3p 21
3s3p3p;
-3P
2 3P 1
3
3 Pi
3 3
P; P;
-
P
p1
292.36
3
3P
3s3p1P;
3s2
274
3P
243.782
3P
243.782
-
- 3s3d3D
1
23
3s3p'P;
so
8,45*,51,202,206
0.11
45*,51,95,202
0.44
45*,51,86,151
0.36
45',51,79,82,87,89,152,206 51,79,82,87,89,152
0.23
45f,51,79,87,89,152 79,82,87,89,152
0.31
45*,79,87,89,152 79,87,89,152
2
90,152
2
% 0 - 3s3plp;
21
0.22
p2 3P
P;
79,86,87,152
3
3 PO 0
284.147
79,86,87,152
0
3
302.45
303.40
45*,62,63,95,115,142,152,200, 202,212,241
79,86,87,152
sO
305.00
0.00217
F‘Y
-
0.83
0.827
2.251°
6,8,17,18*,35*,45*,63,77,79, 81,87,89,95,114,119,133,142, 148,151,152,172*,212*,227, 238,241,242
- 3p3dlP;
86
P2 - 3p3d3P;
- 3s3d1D
Fleferences
45*,51,63,79,86,87,89,91,95, 151,152,202,233
F;
- 3~ 21 3
307.74
0.27
3 D3 -
ev
142
D2
D2 -
317.62
A
3
3
312.55
f
IP = 457
- 3p3d3F; 3
372.78
- Sequence)
2
?s 0 - 3s3p3p;
387.00
327.03
gf
Configuration
h
7058.6
(Mg
XV
6,51,79,86,87,152
2
2.13
6,8,45*,77,89,91,95,114,151, 202
253
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3. March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES.
Transition
Data
See page 233 for Explanation of Tables
Fe Confisuration
h
234.76
xv
3s3p3P;
233.869
sf
- 3s3d3D
3 P;
-
2 3 D3
227.70
3 P;
-
3
227.22
3 P;
-
3
D1 D2 224.745
3 P;
(Lag - Sequence)
-
3 D1
f
A
References
0.24
45*,51,151,152
1.37
6,8,45:51,79,81,86,87,95,119, 142,151,152,172,195,242
0.25
45*,51,79,81,87,151,152,172
0.75
6,7,8,45*,51,79,81,86,87,108, 151,152,172,195,236
0.34
6,45*,77,79,81,87,95,114,151, 152,172,195
73.473
3s3d1D2
- 3s4f'F;
3.51
6,45*,80,90,95,151*,172,220, 233
70.054
3s3d3D3
-3s4f3F;
5.83
6,45*,52,64,80,90*,95,151, 152,172,220,233,243
4.03
45*,52,64,90,151*,152,172, 181,220,233,242
2.72
45*,52,64,90,151,152,172,220, 233,242
7.12
90f.152
4.20
90*,152
3
69.987
'i
3
69.945
68.849
3 D2 3 D1 -
3
3P(2P)3d3F;-3p(2~)4f3~5 3
69.036
F;
3
-
G4
68.883
3p(2P)3d3F;-3p(2P)4f1F3
3.65
90*
66.96
3s3plp;
- 3s4slso
0.14
45*,220
66.238
3s3p3p;
- 3s4s3s
0.31
45*,107,151,152,172,176,220
0.19
45*,80,90,107,151*,152,172, 176,220
0.062
45*,90,107,151,152,172,176, 220
65.612
P;
-
3P;
-
‘D2
- 3s4f'F;
0.71
45'
0.91
45*,90*,95,119,151*,152,172
3
65.370
1 3Sl 3S 1
63.96
3~'
59.404
3s3plp;
- 3s(2S)4d1D2
3s3p3P; 3
- 3s4d3D
56.236 56.290
55.815 55.793
3
P;
-
P;
-
3PO 1
64,90,151*,152,183,220
2 3
52,64,80,90,151,152,183, 220
D3 3
52,64,90,151*,152,183,220
Dl 3
64,80,90,151*.152,183,220
D2
254
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3. March
1979
K. MORI,
M. OTSUKA,
Grotrian
and T. KATO
Diagrams
for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables
Fe A
xv
(Mg - Seqttence)
Confisuration 3
55.635
52.911
3s2
50.120
3s3d3D3
PO 0
18
0
64,80,90,151*,152,183,220
0.50
- 4plp;
0.422
17*,18*,45*,52,64,80,90,95, 119,139*,151*,152,172*,174, 181*,220,233
- 3s5f3F;
64,80,152 3
D2 3
50.062
References
A
D1
3
50.085
f
!lf 3
FO 3
64,152
3 D1 -
64,152
';
49.49
3s3d1D2
- 3s5f'F;
80,152
43.93
3s3d1D2
-3s6f'F;
80
43.65
3S3P3P0
- 3s5s3s1
80,152
43.39
3s3d3D3
- 3s6f3F;
80
41.903
3s3p3p;
- 3s5d3D3 3
41.663
PO1 3
41.559
107,152
3 P;
38.95
3s2
ls
15.828
3s2
18
15.624
3s2
l8
15.490
3s2
18
0
0
0
0
-
107,152
D2 3
107,152
D1
- 3ssplp;
0.115
80,152,212*
- 2p53s23d3P;
40
- 2p53s23a3D;
40
- 2p53s23dlP;
39,40,41,152,218
255
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3. March
1979
K. MORI, M. OTSUKA, and T. KATO
TABLES.
Grotrian Diagrams for FeVIII-FeXXVI
Transition
Data
See page 233 for Explanation of Tables
F, x 360.796
XVI
- Sequence)
(Na
gf
Configuration
f
2
2p63s2S
l/2
- 3P p;,2
IP = 489.264
References
A
0.125
6.50'
6,8,12*,18*,30,62,63,71*,79, 81,87,95,107,119,151,152,154', 162*,178,195,232,234~236,241
0.272
.9.13g
6,8,12',18*,30,63,71*,77,79, 87,95.107,114,119,136,151,152, 154,162*,195,227,232,234,236, 241
0.0279
2.ixg
12',51,79,81,87,107,119,152, 154*,162,172,232
0.254
1.631°
6,8,12*,51,79,81,S7,95,107, 119,152,154*,162,172,178.195, 232,242
0.294
1.561°
6,‘3,12'.51,81,87,89,95,107, 152,156,162,172
0.0340
7.651°
6,12*,90,151,152,154*,162: 17s
0.0391
6.651°
6,12',90,151,152,154*,162: 178
0.882
9.9611
6,12*,52,65,71,90,9S,l51*, 152,154*,162,172,174,178,220, 233
0.924
9.3011
6,12*,52,65,71,90,95,151*, 152,154*,162,172,174.178,220, 233
0.0661
2.16=
6,12*,36,52,65,80,90,95,lSl*, 152,154*,162*,172,174,178, 220,233,242
l.0411
6.12*,36,52,65,80,90,95,151*, lS2,154*,162*,172,174,178, 220,233,242
0.0314
6.951°
12*,65,90,151*,152,154*,162*, 181",220
0.280
4.15ll
12*,52,65,90,95,119,151*, 1S2,154*,162*,174,17Ei,lSl*, 220,233
0.300
3.4011
12*,52,65,95,119,151*,152, 154*,162',172,174,181*,220, 233
0.228
1.9711
12*,17*,18*,52,65,80,90,151*, 152,154',162,178,220,233
0.23
1.8511
12*,17*,18*,52,65,80,84,90, 119,151,152,154*,162*,174, 178,181*,220,233
1 0.796
335.410
2s
265.007
3p 2 p;/2
262.973
2p:/2
2 l/2
-
p;/2
- 3d 2D3/2 -
2
1.712
D5/2
251.063
76.796
2
2 p;/2
-
D3/2
3d 2 D3,2
-
2 4~ P;,2
1 0.414
76.502
2 D5/2
-
2 p:/2
66.368
66.263
63.719
3d 2 D5/2
- 4f 2 F;,2
2
2 D3/2
3P 2
p;,2
-
F'j/2
- 4s 2
sl,2
!
0.374
62.879
54.769
54.728
54.142
50.555
50.350
2
p;/2
3p 2p;/2
-
29
- 4d 2 D3/2 2
2 p;/2
-
pi/2
-
D3/2
-
2 4P p;,2
*1.907
D5/2
2
2
3s 2
l/2
s1/2
2S
l/2
eV
0.486
2 p;/2
I
256
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3, March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables Fe
h
XVI
Configuration
(Na
- Sequence)
gf
48.97
3d 2 D5,2
- 5p 2 P;,2
46.718
3d 2 D5,2
-
Sf 2 F;,2
46.661
2 D3/2
-
2
f
References
A
80,152,178
52,65,71,80,151,152,178~183, 213,220 52,65,71,80,151,152,178:183, 213.220
Fb2
42.50
2 3P p;,2
- 5s 2 sl,2
52,65,71,80,151,152,178:183, 213,220
1 0.074 41.91
2
p;/2
-
41.17
3d 2 D5,2
-
3d 2 D5,2
-
40.245 40.199
40.153
39.027
37.138 37.096
36.808 36.749
36.01
2
28
2 6~ P;,2
6f
2
3p 2 p;/2
-
0.63
71,107,152,178*
F;/2
1 0.58
2
3d 2 D5,2
71,80,107,152 i
- 5d 2 D5/2
2 p;/2
80.152.178
F;,2
2 D3/2
52,65,71,80,151',152,178:183, 213,220
w
-
D3/2
- 7f 2 F;,2
2 -
F&2
3s 2 sl,2
-
2 5P p;,2
23
-
2 p;/2
3~ 2 P;,2
- 6s 2 Sl,2
52,65,80,151 213,220
,152,178:183,
71,80,107,152
107,151 I
l/2
,152,178*,183,
71,80,107,152
2 D3/2
52,65,80,151 213,220
0.14
,152,220,178*
0.0695 80,107,151
,152,179,220
80,152,17L? 0.014
35.71
35.368 35.333
35.106 34.857
2
POl/2
3d 2 D5/2 2D
-
3p 2 p;/2 2 p;/2
l/2
80,152,176
1
- 8f 2F;,2 -
3/2
28
80,107,152
2
107,152,178
F;/2
52,80,107,152,178*
- 6d 2D5/2 2 D3/2
0.044
257
52,80,107,152,178*
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3. March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables Fe
x 33.04
Configuration 3p 2p;/2
32.433
32.192
-
Q2
52,80,152,178
80,107,152,178 80,107,152,178
31.041
2P0 l/2
3~ 2 P;,2
-
107,152
I
0.0316
2
3~ 2 P;,2
References 52,80,152,178
- 6~ 2 P;,2
2 s1/2
A
s1/2
2 3s Sl,2
p;/2
80,107,152,178*
- 8d 2 D5,2 -
80,107,152,178
2
80,107,152,178
D3/2
80,152
- 9d 2 D5,2
2
30.10
f
2
2 - '~3 D5/2 2 D3/2
31.242
30.33
-Sequence)
gf
2 3p p;/2 2 pi/2
32.166
(Na
- 7s 2
2T/2
32.84
32.652
XVI
2 p:/2
-
80,152
D3/2
29.93
2 3s sl,2
2 - 7P p;,2
80,178
26.67
3s
2
S1,2
2 - 8~ Pj,2
80,178
81/2
2 - 9P P;,2
80,178
27.88
2 3s
27.762
2 3d D5,2
- 9f
17.491
3s 2 %/2
- 2p 5 3s 22p.
17.206
2S
15.558
2 3s s1/2
80
-
2S
l/2
2 38
14.20
3s 2 81/2
sl/2
2S
2
l/2
39,40,95,105,151,152,169,181, 204,229
p:/2
- 2p53s3d2Po -
40,41,190,220
l/2
40,220
p;/2
- 2p53s3d2Da
40,41,220
- 28383~
2 P;,2
40,41
-
2
l/2
3S26
40,80,95,105,151,152,169,181, 190,204,220,229
l/2
2
15.413
12.980
F;,2
l/2
15.288
14.05
2
40
p;/2
- 2p53s4s2P0
41
258
Atomic
Data and Nuclear
Data Tables.
Vol. 23. NO. 3. March
1979
Grotrian Diagrams for FeVIII-FeXXVI
K. MORI, M. OTSUKA, and T. KATO
TABLES.
Transition
Data
See page 233 for Explanation of Tables
Fe
110.00
2s2sp53d1Pl-
XVII
(Ne
- Sequence)
2s2p63d1D;
IP = 1266
21°
151,169*
31°
151,169*
95.90
2s22p53p:P
- 2s2p63p3Po
93.00
2s22p53s1P
- 2s2p63s1So
8.31°
151,169*
88.70
2s22p53p1D
- 2s2p63p1Po
4.11°
151,169'
0.040
0.040
17.089
eV
31,40,42,76,137,138,149,151, 169,170,190,193,194,204,220, 229
17.041
0,117
61
16.769
2P
15.449
2p6 %0
15.013
2P
13.888
2p6 ls 0
61
61
0.112
16,31,34*,40,42,76*,95,119, 137,138,149,151',152,169*, 170~,181",190,193,194*,204, 220,224,229
14,16,34*,39,40,76*,95,119; 137,138,149,151*,152,169*, 170,181*,190,193,194*,204, 220,224,229
so
so
- 3d3P;2[+o
0.015
0.010
1.411
14,16,31,34',39,40,42,76*, 95,119,137,138,151,152,169*, 170,181*,190,194*,204,224,228
- 3d1P;2[+
2.58
2.22
1.512
14,16,17*,31,34,39,56,76,95, 119,137,138,151,152,169*,170, 181*,190,193,194*,204,206, 224,227,229
- 2s2p63p3P;
0.041
76,95,137,138,151,152,169*, 170,181*,190,193,194*,204, 218,220,224,229
- 2s2p63p1P;
0.37
13.824
2P
12.681
2P 61
so - 4s 3 Pi'2 3
$0 1
12.509
2P 61
so
$10
so
14,16,17*,18*,34*,39,40,56,
- 4SlP&
0.035
259
0.21
14,16,17*,1I3*,34*,39,40,56, 76,95,137,138,151,152,169*, 170,181*,190,193,194*,201, 204,218,220,224,229
0.024
16,17,40,137,138,152,181', 190.194*,218,220
0.04
16,32,40,41,137,138,151*, 152,181,190,194*,218,220
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3. March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES.
Transition
See page 233 for Explanation
XVII
Pe
A
(Ne
Configuration
Data of Tables
- Sequence)
gf
f
References
A
12.32
2p6
so
- 4d3P;2[+
12.263
2p6
Go
- 4d
w
2p6
Go
- 3d3D;2[$lo
0.66
0.66
12.121
2/
'So
- 4d$;2[$1e
0.70
0.41
11.440
2p6
180
- 5s 3 P;(p 31 3"
40,137
11.419
2p6
so
- 5*1p;+,
40,41,137
11.251
2p6
Go
- 5d3D;2[~l"
0.14
137,152,190,194*,218
11.130
2p6
so
- 5d1P;'[;10
0.13
16,40.41,56,137,152,190.194*, 218
10.771
2p6
Go
- 6d3D;2[;10
10.660
2p6
180
- 66 1 Pl *2 y 3
.259
3 .2 D1
3
[r]”
0.09
16,40,41,56,137,138,152,190, 194*,21a,22s
0.31
16,17*,18*,39,40,56,76*,95, 106,137,138,152,181',190,194*, 218,224,229
6.312
14,39,137,151,152,169*,181, 190,204,206,220
16,17*,18',31,39,40,76*,137, 138,151*,152,181*,190,194*, 204,220,224,229
$0
16,137,152,190,194*,218
0.06
260
137,152,190,194*,218
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3, March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables Fe Configuration
A 974.8
103.96
2
2s
2P.
l/2 2
16.073
2
15.979
2
16.003
2p5
p;/2
-
2 p;/2
-
4P 4P
p;/2
2P
52
2P
-
2P
2P
-
52
0.01
14,33,34*,37,39,40,81,95,110, 152,204,218,220,229
33,40,106,110.204.220,229 33,40,42,106,110,204,220.229
w 312
l/2
2
0.020
0.02
14,33,34*,37.39,40,81,95,106, 110,152,190,204.218,220.229
0.117
0.01
14,33,34",40,106.110,152,204. 220,229
D5/2
52
D3/2
1
s13s
2
3/2-
0.02
14,33,34:39,40,41,152,204, 220
33,40,42,110,204,220,229
sl,2
3P)3d
33,39,40,110,152.204,220.229
4 D3/2 4
0.26
33,34*,39,40.76,152.204,220
0.05
33,34',37,39,40.76,152,204, 218,220
0.26
0.26
33,36,40,76,106,110.204,220 229
0.74
0.74
14,33,34*,40,76,106,204,220
D3/2
P;,2-(3P)3d4P3,2
p;/2-
14,33,34*,37,39,40,41.81,95. 106,110,119,152,190.204,218, 220,229
%/2
PO 3/2-
2
0.03
2
PO
zpo l/2-( 2
0.13
2
P;,2-( 2
2P
0.01
33,37,39,40,41,42,110.152, 204,220,.229
p;/2-
14.783
14,33,40,152,204,218.220
P~,,-Al)3s2D3,,
2
5
33,37,39,40,110,152,190,194*, 204,218,220,229
'3/Z
p;/2-
2P
0.006
5/2
2 'j3'
2
2P
33,37,39,40.110.152.204,220
3/2
l/2 4P 3/2
3
p;/2
33,37,39,40.110,152.204,220, 229
4P
2
15.298
14.63
3 4 ( P)3S Pl,2
3/2 -
15.567
14.772
-
l/2-(
15.623
15.012
6,14,18,52,57.75,88,95,99, 102,109,147,151,152,158,172
-
2 PO
15.491
sl/2
p;/2
15.826
15.869
58,112,158,207
l/2
-
-
2
References
6,14,18,52,57,75,88,95.99, 102,109,147.151.152.158,172
p;/2
16.024
ev
s1/2
2Po
15.764
A
2 pz/2
2p5
f
IP = 1358
- 2s2p 62
2
16.087
16.087
-2s 2 2p 52p.
p;/2
2P 52 '"Y2
(F - Sequence)
gf
52
2p
93.94
16.109
XVIII
4P
l/2
261
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3, March
iS7S
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables Fe
Configuration
A
2
14.581
-
2 PO
3/2
-
p;/2
2P
52
PO
-
p;/2
-
l/2
2
14.549
2p5
4P
-
P;,2-(3P)3d2P 2
14.703
p1/2
4P
2
14.485
14.467
PO
4
3/2
14.551
14.770
XVIII
3/2
(F
-
Sequence)
gf
f
A
References
0;95
0.24
33:40,76,106,110,204,220,229
LO5
0.14
14,33,34*,40,76,106.110~204~ 220,229 33,40,76,106,110,204,220.229
512
14,37,39,40,41,76,152,204,220
l/2 2P 2P
33,37,39,40,41,76,152,204.220
312
37,39,40,41,76,152,194,204,220
l/2
2P;,2-(1D)3d2sl,2
0.0135
14,33*,37,39,40.76,110,119,
0.006
152,194*,204,220,229 2
14.255
14.419
2p5
2
pl/2
2p5
2P
2P
-
2P* 3,2-(3P)3d2D
5 2po l,,-?D,3d2D 2
2
2P
P'
242
5 zpo 1/22
13.954
13.919
2P
13.442
2p5
13.425
2p
14,33,34*,40,41.76~110~204~ 220,229
0.123
0.031
33,37,40,41,76.152,194*,204, 218,220
3/2
0.0391
0.014
33,37,40,41,76,152,194*~204r 218,220
5/2
33,37,39,40,41,76,81,95,110, 194,204,218,220,229
3/2
33,40,41,76,81,95,110,152, 204,220,229
D5/2
14,33,37,40,41,76,81,110, 152,204,218,220,229
D3/2
14,33,37,39,40,41,76,110, 152,204,218,220,229
('9
3d2D3,2
33,37,40,41.76.110,152~204. 218,220,229
P" 312
-
'D
33,37,40,41,76,110,152~190~ 204,218,220,229
p$2
-
512
2
5 zpo
2Po
l/2 -2s2p
33,39,40,41,76,152,204,220
D3/2
3 3/Z-(
52
0.21
2
-
2
13.934
0.204
2 "S/2-
14.150
14,33*,37,39,40.76.110,119, 152,204,220,229
0.000660
'3/2 2
PO 312 p;/2
%/2
2 D)3d
2
14.20
14.121
1 l/2-(
14.214
14.361
-
zp.
14.293
14.373
PO 3/2
2
2 'j3'
33
'l/2
5
2 3P p3,2
14,40,56.190.220
PO3,*-(1P)3P291,2
33
262
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3. March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables XVIII
Fe x
Configuration 52
13.40
2P
p;/2
gf
-2~3~
5 zp.
2P
12.2
2P
11.730
2P
5 zp. 3,2-(1s)4s
11.516
2P
5 2po 3,2-(1D)4d2D
11.51
2P
11.021
2P
2P
52
52
2 D3/2
14,40.190,220
33.40.56.220
l/2
21,151,220,239
(1D)4s2S
2
152,190,218,220
pl,2
56,151,152,218,220
W
40,41,56,151,152,190,21S
P;,2-(1D)4d2P3,2
5 2po
1 3/2-(
52
References
A
14,40,190,220
3/2
PO -
f
2 3~ D5,2
-2s2p53p2S
13.296
1.9267
5
2 p:/2-
13.36
(F - Sequence)
2 S)4d
151,190,218,220
'5/2
111.118.155
PO - lS22S2P6
263
Atomic
Data and Nuclear
Data Tables,
Vol. ‘23, No. 3. March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES.
Transition
Data
See page 233 for Explanation of Tables
Fe x 7080
XVX
Configuration 2s
2
2p
43
1118.1
2p
43
3
3
3 -
p1
-
p2
-
57,60*,75,88,99,102.109,147, 151*,152,156,
PO 1
0.083
57,60*,75,88,99,102,109,147, 151*,152,156
0.32
57,60*,75,88,99,102.109,147, 151*,152,156,
0.099
57,60*,75,88,99,102,109,147, 151*,152,156
0.085
57,60*,75,88,99,102,109,147. 151*,152,156,157
0.32
60*,75,94,98,99
0.056
57,60*,75,99,109,147,156, 157
3 'tl 3 p;
61
115.42
2S2P 5 lp. 1
106.125
2p 41
so
91.02
2p 41
D2 - 2S2p 5 lp. 1
15.042
2P
15.00
2p4
14.927
2~
14.72
2P
14.703
2P
14.549
2P
13.993
2p4
13.763
2P
-
(2P.)3slP;
3P2
-
(4w3S3s;
D2 -
('D")3s1D;
41
43
so
- 2s2p 5 lp. 1
so
57,75,88,99,102,10?,147.151*, 152,156 0.067
p;
3
41
58,112,158,207
PO 1
3 p2
3
101.56
112
Pl
2s2p 5 3p. 2 3
57,75,88,99,109,112,147,152, 156,157
39,40,42,152,220
40,42,96,151*,190,218,220
0.023
40.42.220
P,-('D")3S3D;
41
0.038
40,42,85,96,151*,220
39,40.42,152,220
D2-(2Po)3~1P;
43
Po-(2P')3s3P;
3Pl-(4S")3d3D; 3
p2-
eV References
p1
111.70
106.33
A
3
2P 43 Pl'-
108.37
IP = 1456 f
gf
PO-2s 2
p2-
120.00
(0 - Sequence)
0.315
0.023
39,40,42,151',152,220
1.38
0.46
14,39,40,101,152,220,96*
1.18
0.24
14,39,40,56,96*,101,151, 152.201.220
264
Atomic
Data and Nuclear
DataTables.
Vol. 23, No. 3, March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables
Fe ,I 13.829
2P
13.829
2p 4 3P 0 -('D)3d3Do
13.705
"S
3
3 p2-
41
"i
3 p2-
'i
Pl-c2D,3d3P; 3
3 p;
p2-
13.518
2P
13.517
2P
13.494
2P 4 1D2-(2P)3dlD;
13.467
2P
P,-('P)3d3D; 3
3 po
-
13.464
2P 4 3P2-(2D)3d3S;
12.98
2p4
12.93
2P
12.915
2P
'D2
41
40,96:101,152,218,220
1.11
0.37
40,56,96*,151,201,220
1.23
0.41
39,40,95,96,101,151*,152, 181,220,
2.14
0.25
14,39,40,95,96*,101,151*,152, 181,190,192',201,202,220
40,41,220
D2-(2P)3dlF;
43
41
14,39,40,85.96*.101,151,152, 192*,201,220
D - 3d'P"
41
13.442
0.74
1.23
'i 3
pl-
41
3.71
14,40,96,192,201,220 3
3
13.503
14,39,40,96*,101,151,152,192*r 201,220
40,96*,151,192,220
2P 4 3Pl-(2P)3d3P;
43
0.46
2.22
13.644
2P
1.27
So-(2P)3d1F';
2P
13.547
14,40,101,220
40,96*,101,151,192*,220
13.695
13.428
40,101,192*,220
1.07
2P
13.467
References
D2-t2D)3dlF;
13.733
41
A
1 3
pl-
13.518
f
0.53
D2-(2D)3dlD;
3
(0 - Sequence) gf
Configuration 41
XIX
"i
5.44
40,96*,101,151,192*,220
1.50
40,96*,151,220
0.17
40,85,95,96,101,151*,181,190, 192:201,220
1.39
1.39
40,88,96*,151',181,192*,201, 220
1.22
40,152,218
- 2s2p43p1F;
D - 2s2p43p1Do
40
D - 2s2p43p1Po
40
265
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3, March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-
FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables Fe
XIX
Configuration
.I
(0 - Sequence) f
gf
References
A
12.726
2p4
l8()
12.599
2P4
3P - 2~2~~3~
12.494
2P
11.16
2P4
3P - 4s3so
41.56.190
11.026
2P 4 3P - 4s31Y
40,41,190
10.81
2P 4 3P - 4d3Po
40,41,151,190,220
1.918
43
K
- 2s2p43p1Po
40
3Po
40
P - 2~2~~3~~8'
40
85.111.155.167
a
266
Atomic
Data and
Nuclear
Data Tables.
Vol. 23, No. 3. March
1979
Grotrian Diagrams for FeVIII-FeXXVI
K. MORI, M. OTSUKA, and T. KATO
TABLES.
Transition
Data
See page 233 for Explanation of Tables Fe Configuration
h
4 162.80
(N - Sequence)
XX
2s2p
- 2P
References 75,99
Pi/2
2
2
'3/2-
75.99.157
p:/2 2
138.46
2P 1/22 '3/2-
121.99
136.34
2s
2
32
2p
p;/2
132.85
42
131.76
44 4So 312 - 2s2p
2P
32
2P
D5/2 2
3/2 -
D3/2
Do
l/2 2D
-2p5
2Po 2
'S/22
2 D3/2-
p;/2-
98.37
2 PO 3/22 p;/2-
92.63
2P
3 2Do
J/2
3/2
PO
0.33
57,60*,75,88,94,98,99,147, 152,157,236
3/2
0.13
60*,75,99,112,147,152,157
0.27
60*,75,99,157
0.12
60*,75,157
PO
60,99,157
l/2
- 2s2p 4 2P
2
101.83
57,60*,75,88,94,98,99,112, 147,152,157.236
75,99,147,152,157
s1/2
2
2P 32 *;/2
0.36
sl/2 2
-
512
157
42
2p;,,-zs2p PO
75.99
l/2
D3/2
2
98.07
75,99,157
2 DO5/2-
2s2p4
17*,18*,57,75,99,102,147,151*, 157
a2
D;,2-2~2p-
2
I
li",l8',57,75,94,98.99,102, 147,151*,157
0.48
'3/2
2
2p3
17*,18*,57,75,94,98,99,102. 147,151*,152,157
52 28 167-2P 2 s1/2-
109.65
94.62
pl/2
4 2s2p
106.97
108.81
4 so3/2 -
110.63
111.51
'3/2
4
113.34
114.70
4 so312 -
115.35
115.39
'5/2
4
118.66
57,75,99,157
D3/2
3
121.83
57,75,94,98,99,157
D5/2 2
p;1/2-
2P
75,99,157
p;/2
2 127.86
75,98,157
pi/2 2
-2s2p
312
57,60*,75,99,147,157
0.12
2P
3/2
57,75,99,147,157
2P
l/2
57,75,99,147,157
2
75,99,147,157
p1/2
- 2s2p
eV
A
52
2Pl/2
140.42
f
gf
IP - 1582
42
112,147,157
s1/2
267
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3, March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES.
Transition
Data
See page 233 for Explanation of Tables
Fe
Configuration
x
93.80
2P 3 2D0
5/2
-2s2p
2s2p 44
13.72
2P 3 490
3 2P
13.084
2P
3/2
32
13.og4
2p3
13.084
2P 3 2po 3,2-‘1D’
13.084
2P
13.052
2P
12.990
2p
12.915
2p3
12.895
2P
32
12.815
-
?D)
3/2
57,75,88,94,98,99,112,147,152, 157,236
l/2
57,75,88,94,96.98.99,152,157. 236
0.042
5/2
42,96,151*,181,201,220
40,220
13P)3d2F
?D)
Do3,2-
7/-J
3d2F5,2
t3P) 3d2D5,2
D;,2-
5/2
(ID)
3d2D
5/2
2 D;/2
-
D3/2
2
2 D;/2
-
'Do 5,2-(1D)
D5/2
3d2F
7/2
3 4so 3/2-( 4 S'
40,41,96,101,152,220
40,220
3d2P3,2
zpo 3,2-
32
40,41,101,220
3d2S
2
2P
References
220
2Do ,,,-h3d2D
2p3
A
t3P) 3d4Pl,,
Dk2-
32
12.833
12.842
- 3S4P
';,2-
2Po
12.840
f
3 2 ZPO3/2-( P)3d '3/2 2 2 p;/2 '3/2
2P
3
SeqtEIlCC!)
P-2s2p33s4Fo
13.351
12.882
4 2P
D;/2-
16.60
(N -
gf
2
83.24
13.467
xx
3/2-
3P)3d
4 '5/Z 4P
3/2
1.60
40,41,96*.151.220
1.72
23*,40,41,85,96*,101,151,190, 220
2.50
23*,40,41,96*,151,220
2.71
23*,40,88,96*.101,220
1.93
40,96*,151,220
1.52
23*,40,96*,101,151,190,220
1.13
23*,40,96*,151.220
1.31
23*,40,96*,151.220
5.31
23',40,85,88,96*,101,151,190, 220
1.76
17*,18*,23*,40,88,95,96*,101, 151*,152,181,190.218,220,231
1.97
17*,18*,23*,39.40,88,95,96*, 151',152,181,190,220,236
268
Atomic
Data and
Nuclear
Data Tables,
Vol. 23. No. 3. March
1979
K. MORI, M. OTSUKA,
and T. KATO
TABLES.
Grotrian Diagrams for FeVIII-FeXXVI
Transition
Data
See page233 for Explanation of Tables
Fe 1
Confisuration
2P3 P;,2-(1S)3d2D
12.73
2P3 T/2
4
4
12.145
2 2
2
a3
2
12.27
2
12.233
2
a3
2
10.35
2
10.22
9.70
1.906
1.40
References 23*,40,96*,151,220
40,220
SO 3/2-
4P
40,220
T/2-
4P
2
12.076
10.12
3
A
4 3P pl,2
2P3 D’
12.17
10.50
3/2
f
-2s2p
312
4
11.994
12.454
(N - Sequence) qf
2
12.795
12.521
XX
-2s2p33p2P
40,220
Do -
2P
40,220
Do
2P
40,220
-
PO -2s2p33P2D
40,220 2
PO -
2
PO -
D
40,220
D
40,220
PO - 4d2D 2
POP"
-
40,220
2D
40,220
- 4S4P
2p3
- 4d4P
4so
40,220 D
2P 34 s-
K
40,220
512
40
0.160
151*,220
53,85,111,167
a
269
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3. March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES.
Transition
Data
See page 233 for Explanation of Tables
2s
2
23p
Pp
2
2 3p
(C - Sequence)
1 - 2s
2p
23
-
145.67
P2 - 2szp 3 3Do2 3 p2
-
p1
-
"i
3
142.17
3P
3
31
"i
Do2 -
2S2P
125.30
2s2p 3 lpo
123.76
2P
2
3
D;
0-
144.82
2p
121.16
41
-2P
1
115.16
3 p2
-
p1
-
108.45
13*,75,88,99,151*,213
0.16
9.16'
13*,75,88,99,102*,147,~~~*, 157,213
0.10
1.121°
13*,75,88,99,102*,151*,157. 213
3.291°
13',157
7.631'
13*,157
1-
21
PO 1
3P.
-
D2
-2S2p
pi
31
3 lpo 2p 2 1s o - 2S2P 1
102.21
2p
P2 - 2szp 3
D;
3 3S.a 3
p1
-
po
-
D2
-
3
3
3
lso
si
2s2p
- 2~3s
3 lpo 1
1
10
13*,75,88,99,102*.112.147, 151*,152,157,202,213
2.241°
13*,151*,152,157,213
1.591°
13*,102*,147,151*,157,213
4.8Z8
13*,151*,152,157,213
0.02
4.4gg
13*,102*,151*,157,213
0.60
4.50
0.11
1.731°
13*,102*,151,157
0.30
6.121°
13*,75,88,99,102*,112,147, 151*,152,157,202
0.16
2.46
0.03
8.92’
0.29
6.65
0.12
‘;
3
1-12.47
23
2.03
3 -
13*,147,151*,157,213
2.70'
p; 3
2P
2p2
7.368
0.23
';
113.31
13.464
13*,75,88,99,102*,151*,152, 157,213
3
p1
21
6.08g
so
3
Zp
0.15
2s2p 3 3po 1
P2-
3P
117.89
98.37
13*,75,88,99,151*,157,213
D2
3
118.70
91.28
46
41
3
97.87
0.432
"; 3
p1
128.67
58,102,112,158,206,207
3
3
142.10
58,112
2
p1
3
eV References
A
3 po
2p
IP = 1689
f
9f
3
1354.1
151.44
XXI
Configuration
h
2304
Fe
10
13*,60*,75,88,99,102*,112, 151,152,157,202
10
13*,75,88,99,102*,112~147~ 151*,157,202 13*,75,88,99,102*,112,151*, 157,202
10
13*,75,88,99,102*,112,151*, 157,202
lP0 1
39,40,152.190,220
270
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3. March
1979
K. MORI,
M. OTSUKA,
Grotrian
and T. KATO
Diagrams
for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables Fe
XXI
Configuration
h 2P 21
13.052
2P
13.012
2P
12.815
2P2
12.808
2P
12.681
2s2p 33 D;-2s2p2(4P)3d3F4
12.591
2P 2 ls o -2p3dlP;
12.5
2P
12.469
2P
12.438
2P
12.401
2p2
23
40.190.220
-2p3s3Po
P2
- 2p3s3P;
p1
- 2p3slP;
40,151,152,218,220
-2p3d3D;
40.56.220
21
P2 - 2p3d3F;
1.15
0.23
22*,40,96*,151,220
D2 - 2p3dlP;
0.06
- 2p3d3D; 3 "if 3
po
2P
11.956
2p2
23
22*,40,41,96*,151,220
22*,40,220
3
12.273
40,101,220
0.620
3P2
21
40,56,152,206,220
1.40
1-
2P
40,96.151*,152.190.213,218, 220
1.24
3P
12.399
0.050
- 2p3d1D;
Pl
23
12.262
References
so - 2p3d3P;
23
12.397
A
D2
'so
21
f
gf
13.25
23
(C - Sequence)
-
Di
2.94
0.588
22*,39,40,56,85,95,96*,101, 151*,181,190,220
1.44
0.48
22*,39,40,95,96*,151*,152, 181,220
1.28
1.28
22*,40,56,95,96*,151*,181, 220
D2 -2p3d'P;
4.72
P2 - 2p3d3P;
1.08
'D
22',39,40,152,220
22*,39,40,96",101,123,151r 152,220
0.216
40,56.85,95,96*,101,151*, 181,190,220
- 2s2p23plP0
40,220
11.772
1 D-
1
11.637
1D-
1
PO
40,220
PO
40,220
271
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3, March
1979
K. MORI, M. OTSUKA, and T. KATO
TABLES.
Grotrian Diagrams for FeVIII-FeXXVI
Transition
Data
See page 233 for Explanation of Tables
Fe A 11.865
XXI
Configuration 2p2
(C - Sequence) f
gf
A
References
3P - 2s2p23p3Po 3
11.698
40,151*,220 3
P-
0.060 PO
40,151*,220
40,151*,220
11.742
2*2
3P
- 2s2p23p3Do
11.592
2P 2 3P
- 2s2p23p3So
40,220
9.94
2p2
- 2p4dlPO
40
9.81
2P
9.723
2p2
'D2
- 2p4s'P;
40,56
9.450
2p2
3P.
- 2p4d3D;
40,56,151,220
lso
21
0.239
so - 2~4~1~;
40.56
1.896
53,85,111.167
212
Atomic
Data and Nuclear
Data Tables,
Vol. 23. NO. 3. March
1979
K. MORI, M. OTSUKA,
Grotrian Diagrams for FeVIII-FeXXVI
and T. KATO
TABLES. Transition Data See page 233for Explanation of Tables
Fe Configuration
A 2
2s
557.5
3s
349.3
2P2P0
-
PO
-
p;/2
-
2P2P0
3/z
2
2s2p
156.84
2s2p
8.506
206,211*
4P
5.5g6
206,211*
1.517
51,206,211*
1.~36~
51,206,211*
1.3Z6
206,211*
1.9ag
56,75,88,99,147,151*,157,211*, 213
0.14
3.97g
56,75,88,99,i02*,147,151*,157, 211*,213
0.13
3.75g
56,75,88,99,102*,147,151*, 157,211*,213
4P
- 2szfi2
p;/2
-
2 =5/Z
=3/Z
22 p3/2-2p
22
3 zp.
3 ZDO 2 =5/Z-
sl,2-2P3
%/2
2s2p
p;/2
2s
-
2s2p 2 4P
5/z-2p3
49
4
125.71
7.568
117.52
pl/22
p;/2
l/2
Pi/Z 2
-
p;/2
-
2
4.10
10
'3/Z
75,88,99,102*,147,151*,152, 157,211*,213
157
312
22 - 2s2p
PO 3/Z
0.18
75,88,99,102*,147,151*,152, 157,211*,213
4So 312 4 ?/2
'3/Z4
2
0.001
0.017
2
2p
157
2P;,2
22
pG2 -
157
D;/2
2
117.12
157
D;/2 2
=3/Z-
22
157
3/Z
D5/2-2p
144.82
157
312
2
2p
3/Z
2D3,2
2
2s2p
312
2
149.90
102.20
4Pl,2
2
157.36
32*,151*
p1/2
-
references
A
0.335
'5/Z
Pa 312
ev
56,58,102,112,158
4
pb2
135.73
114.39
-
3/z
f
4
2
156.20
116.24
- zap2
312
IP = 1799
P;,2
p;/2,1/2
2
217.30
134.65
3p
p;/2
247.19
2
2 s1/2-
2
253.17
135.93
zp
2
292.46
139.82
2
2
(B - Sequence) 9f
2 2p P;,2-2s
845.1
161.65
XXII
157
157
0.13
1.49
0.51
2.65
10 10
1
2
75,99,102*,151*,157.211* 56,59,60,75,88,99,102*,147, 151*,157,211* 56,75,88,99,102*.147,151*157, 2114
p1/2
273
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3. March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables Fe
x
2 *i/2
4P2P"
9.91
32*,151
3.23
32',151
0.737
32*,151
37.48
3d2D
-
35.88
3p2Po
- 4d2D
34.40
3s2s
13.90
2s2p
12.38
2p2*o
D -2s2p3s2Po
- 3s
2s2p 2 4P
-
512
22 D5/2
101,220
3/2
12 P)3d
2S2p(
32,101,151,220
D;,2
101,220
(3P)3d2F;,2
-292~
- 3d2D -
*;/2
-
4P
--2p(
3/2
‘D
2.35
S/2
2
2
512
101,220
%/2
P”
3/2
2s2p2
101,220
2
2P2P0
11.727
220
101,220
D3/2-
11.843
32*,56,96,151*,181,190,211*,
8.53ll
"$2
2D5,2-
2
0.019
4
2
11.90
32*,56,96,151*,181,190,211*,
-2s2p(3Pud40;,2
5/2-
P)3d
0.66
1.32
D3/2
3.
,151,220
220
0.116
%/2
12
2S2p(3P)3d2D;,2
4P
12.12
1.63
I
%/2 2
12.230
2s2p
32
2
3/2 *;/2
12.12
3/2
- 4P2P"
2
2s2p2
211*
4f2F0
-
2s2p2%5,2-
56,59,75,88,99,1O2',l5l*~l57,
32*,1X
3p2Po
12.120
l.391°
0.270
37.66
12.259
References
4s2s
-
11.89
I
A
32+,151
3d2D
12.22
f
0.160
38.85
22
0.03
'3/Z
-
l/2
(8 - SeqUenCe) gf
Configuration 2
100.77
11.862
XXII
4
3.0412
18,32*,151,190,211*,220
1.8312
18,25*,32,56,85,95,96,101, 151*,211*,220
1.5913
18,25,32,56,85,95,96,101,151, 190,202,211,220
25,101
P;,2
274
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3. March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables Fe XXII
x 11.730
11.65
Configuration 2s2p
22
2
PO
2s2p
11.440
2p 2Po
2s2p
11.325
2s2p
2p
9.08
9.05
2~
8.1
1.886
PO
40,101,220
%/2
40,101,220
2
Q2
101
D5,2
101
-2s2p3p2S;,,
40
-2s2p3p2Po
151
2 - 4s
6.42=
%2 2
3.32
sl/2
- 4d
2
0.43
D5,2
2
2
40,101,220
D3/2
22
Q2
P)3p
-
%/2
p;/2
2P
101
2
22
2PQ 312 2 PO 1/2-
3
-2S2P(
312
2
8.97
F;,2
-2s2p3p2Do
%/2
2
References
pl/2
l/2
11.377
A
2
-
22
11.524
11.420
f
-2~Zp('P)3p~P~,~
3/2 l/2
2
Sequence)
gf 12 P)3d
-2sZp(
D3/2
2P2P.
11.458
9.16
(B -
-
0.24
D3/2
- 5d
(Ka)2p2Po-ls2s22p2
2
0.120
16,211* 11
16,211*
5.9312
25*,151*,1S1,211*
5.1112
25*,151*,181,190,211'
D3,2
56
2P,2D
0.590
0.59
275
18*,53,55,85,111,167,1S1,213
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3, March
1979
K. MORI, M. OTSUKA, and T. KATO
TABLES.
Grotrian Diagrams for FeVIII-FeXXVI
Transition
Data
See page 233 for Explanation of Tables
Fe XXIII configuration
h
1093
2s2p3p;
263.76
2s2
180.07
2szp3p;
2s
A 58,112
2
51,112,151,152,206,237,238
23
p1
75,88,99
3 pO
75,88,99
3P;
-
3 p2
75,88,99
3
P;
-
P;
-
3P
3 PO 1
3P
21
ev
References
-
3
144.82
f
IP = 1950
- 2s2p3p;
- 2p
3
147.59
Sequence)
3 P;
166.77 154.35
0
-
gf
- 2s2p3po
l8
173.88
132.83
(Be
p1
75,88,99 75,88,99
1
75,88,99
2
so - 2szplp;
0.170
0.170
1.691'
17*,18*,32*,58,75,88,99,102*, 112,125,133,147,151*,152,200, 237,238
36.12
2s3dlD2
- 2s4p'P;
0.0765
1.3011
32*.151*
35.44
2s3d1D2
- 2s4f1F;
5.07
3.8512
32*,151*
35.38
2s3d3D3
- 2s4p3P;
0.203
1.2011
32',151*
2s3p1P;
- 2s4s'S
0.115
6.9811
32*,151*
35.05
2s3p3P;
- 2~4~~81
0.385
6.9811
32*,151*
34.64
2s3d3D3
- 2s4f3F;
3.8512
32*,151*
33.95
2s3plP;
- 2s4d1D2
1.67
1.9312
32*,151*
2s3p3P;
- 2s4d3D
5.16
1.9912
32*,151*
32.57
2s3s1So
- 2s4p'P;
0.294
6.1611
32*,151*
32.55
2s3s3Sl
- 2s4p3P;
1.17
8.1811
32*,151*
12.24
2s2plp;
- 2s3s1So
0.302
9.20=
32*,56,151*,190,220
35.15
33.88
0
14.8
3
276
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3. March
1979
K. MORI, M. OTSUKA,
Grotrian Diagrams for FeVIII-FeXXVI
and T. KATO
TABLES.
Transition
Data
See page 233 for Explanation
Fe XXIII h
0s
Configuration
11.80
2s2
l8
11.79
2szp3p;
- 2s3s3Sl
11.730
2s2plP;
- 2s3dlD
11.571
2P
11.521
2P
11.45
2s2p3P;
21
0
D2
23
2
0.175
3.6312
32*,151*,190,220
1.94
1.5413
25*,32*,101,151*,181,220
-2p3d'F;
101
3.19
-
3 3
25*,101
6.09
25*,31,32,85,95,96,101,151*, 181.190.220
1.69
2s2
3s 1 - 2s3p3P;
11.167
2s2
ls 0 - 2s3p3P;
0.21
11.01
2s2
ls 0 - 2s3p'P;
0.735
32,220
2s2p3P;
- 2p3p3D
3
2sZplP;
- 2~4~1s
0
8.858
2szplP;
8.702
8.628
25*,32,40,56,96,206,220
17*,18*,25*,32*,39,40,56,95, 96,102,151,152,181,190,220
6.0912
25*,32,101,220
0.651
0.0193
1.6112
32*,56,151*,190
- 2s4d1D2
0.371
6.30812
25*,32*,151*,190
2szp3P;
- 2~4~~61
0.0374
1.09812
32*,151,190
2s2p3P;
- 2s4d3D
1.12
6.6912
25*,32*,151*,190
8.319
2s
8.307
2s2
1.872
25*,31,32*,85,95,96,101, 151*,181,190,220
2.2913
11.250
8.938
References
A
17*,18*,32,151*,190,220
D2
10.926
f
- 2s3dlD;
- 2s3d3D
3 Pi
- Sequence)
gf
P2 -2p3d3D;
11.360
of Tables
21
so
2
- 2s4p3P;
1s 0 - 2s4plP;
(Ku) Is%%’
’ So-1s2s22p1~;
56,152,229
0.186
0.780
25*,32*,54*,55,56,151,152, 229
5.7912
0.78
277
17*,18*,53,55,85,111,127, 130,167,179,181,202,213
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3, March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables
Fe XXIV Configuration
x
255.29
(Li
2
-
f
gf 2
2s s1/2
- 2P p;,2
IF = 2024
Sl3qWSIlCe)
1
References
A
0.0176
1.74g
17*,18',32*,51,75,88,99,151, 152,200,202,206,232,236,237, 238
0.047
4.15g
17',18*,32*,51,75,88,99,133, 151,152,200,202,206,232,236, 237
0 .105
2 192.14
2S l/2
32.13
2 @ p;/2
32.72
3a2D
32.52
2 3a %~/2,3/2-~f
32.10
3p2p3,2
31.22
3s 2 s1/2
2 - 4p p;/2,1/2
11.38
2p 2p;/2
- 3s
11.250
2
11.20
11.17
11.01
10.65
-
I
p;/2
2 - 4s
sl/2
- 4p2po
2
I l,2-4a2D5,2
0.237
32*.151'
0.123
32*,151*
I 3/2
3.59
32*,151*
0.848
32*,151*
2 s1/2
16,17*,32*,39,56,85,96,106, 151*,152,181,213,220
I
0.102
PO l/2
2P2P0
3/2
-
2s
l/2
D3/2
2
2 p:/2
-
p;/2
-
2
D5/2 2
2s 2 s1,2
2s
D3/2
2 - 3P Q2
-
2
l/2
8.378
2 2P p;,2
8.290
2
p;/2
16,17*,32*,39,56,85,106,151*, 152,181,213,220
- 3d 2
p;/2
- 4s -
2
s1,2
28
l/2
16,17*,32',39,95,96,106,151* 152,213,220
I
16,17*,32*,39,85,95,96,106, 151*,152,181,190,213,220
4.11
16,17*,32*,56,85,95,96,151*, 190,213,220
16,17*,18',32*,39,40,56,85, 95,96,106,151*,176,181,190, 206,220
i1 0.771
10.61
32*,X1*
10.2
F:/2,5/2
ev
0.380
16,17*,18*,32*,39,40,56,85, 95,96,106,151*,152,176,181, 190,206,220
0.0145
16,32*,54*,55,151*,152,228
0.0073
16,32*,54',55,151*,152,228
278
Atomic
Data and
Nuclear
Data Tables,
Vol. 23, No. 3. March
1979
K. MORI,
M. OTSUKA,
Grotrian
and T. KATO
Diagrams
for FeVIII-
FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables
Fe
Configuration
x 8.317
(Li
XXIV
2P2P0
312
- Sequence) f
gf
A
References
- 4d 2 D5/2
0.440
16,32*,54*,55,56,95,151*,152, 179,181*,190
8.314
2 pz/2
-
2 D3/2
0.0489
16,32*,54*,151*,152,181*
8.233
2 p;/2
-
2D
0.247
16,32',14*,55,56,95,151',152, 179,181*,228
7.989
2s 2 sl/2
312
- 4p 2 p;,2
0.065
16,32',54*,55,56,95,123,151*, 176,179,181',190
0.096 2
7.979
Sl/2
2
-
3/2
PO l/2
2 - 5d D5/2 2 D3/2
7.233
2 2s %/2
2 - 5P p;,2
6.97
2P2P
1.874
lS22S2S
1.870
2 2 IS 2p P;,2-l*2P2
1.867
Is
7.41
2p2po 2
7.36
2
3/z
0.131
po
16,190 16,190
0.042
2p
- 6d
4
l,2-ls2s2P
2
16,190
D3/2
16,53,55,95,118,123,126,130
22
P;,2-ls2p
53,95,118,123,126,127,130
D3/2 2
p;/2-
16,53,95,118,123,126,127.130
D5/2
2
1.863
16,53,55,126
p;,2
4P3,2
2
2 pQ2
-
16,53,95,118,123,126,127,130
D3/2
1.863 2
1.861
2
16,53,126,127,130,158
2P
3/z
16,53,126,127,130,158
2 2s
l/2
16,126,127,130,155
p;/2-
2
2 zp P;,2-ls2p
1.8525
1s
1.602
lS22S2S
w
16.18*,53,55,85,95,111,118, 123,126,127,130,152.167,181
2P3,2
2
1.858
0.40
p;/2
2 2p P;,2-ls2p2
16,18*,53,55,111,126,127,130, 152,167
I
2 sl/2-
1s
16,151*,152,176,179,181*
2
l/2
1.866
1.862
16,32*,54*,55,56,95,123,151*, 152,176,179.181*,190
-ls2s3p2P"
85
279
Atoms
Data and
Nuclear
Data Tables.
Vol. 23, No. 3. March
1979
K. MORI, M. OTSUKA, and T. KATO
TABLES.
Grotrian Diagrams for FeVIII-FeXXVI
Transition
Data
See page 233 for Explanation of Tables
Fe xxv x
Configuration . + - 1szp“P;
474.7
lS2S‘lS1
280.7
lS2SlSo
- ls2plP;
30.24
ls3plP;
- lS4SlS
30.11
lS3dlD2
- ls4plP;
30.10
ls3p'P;
- ls4d'D
30.02
1s3p3p;
- lS4S3S
30.00
ls3d1D2
29.98
(we
- Sequence)
gf
f
IP = 8828
ev
A
References
0.0820
32*,151*
0.0494
32*,151*
0.106
32*,151
0.179
32*,151
1.87
32*,151
0.322
32*,151
- ls4f'F;
5.10
32*,151
1939351
- 1s4p3p;
1.36
32*,151*
29.98
ls3d3D3
- ls4f3F;
15.27
32*,151
29.96
ls3d3D3
- 1s4p3p;
29.68
ls3p3P;
- ls4d3D
29.55
lS3SlSD
- 1s4plp;
10.61
ls2plP;
- lS3S1S
10.55
ls2plP;
- ls3d1D2
10.46
1szp3p;
- ls3s3S
10.36
ls2p3P;
- ls3d3D
10.18
192s1s0
10.16
1*2s3s0
0
2
1
0.0536
32*,151
5.44
32*,151
0.442
32*,151
0.0436
32*,56,151*
2.26
32*,151',202
0.137
32*,151*
6.18
32*,151*,181*
- ls3plP;
0.344
32',151*
- 1.¶3p3p;
1.22
3
0
1
3
8.7812
280
32*,151*,164*,181
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3, March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES. Transition Data See page233 for Explanation of Tables
Fe XXV x
(He
Configuration
- Sequence)
gf
f
References
A
7.816
1szplp;
- lS4Sldo
0.0097
32*,151
7.807
152plP;
- ls4d1D2
0.364
32*,151
7.724
1s2p3p;
- 1s4s3s1
0.0302
32',151
7.701
152p3p;
- ls4d3D3
1.10
32*,151
7.593
1s2slso
- ls4plP;
0.0840
32*,151*
7.586
lS2S3S1
- 1s4p3p;
0.297
32*,151*
1.868
ls2
% 0 -
1.8585
ls2
ls
1.792
1.787
1.784
0.790
0.79
- lSZP3Pi
0.794
0.79
0.79
0.79
17*,18*,38,53,55,95,111,127, 130,151,181*,198,220,223
0.794
0.79
16,17*,18*,25,32*,38,53,55, 85,111,118,127,130,151,152, 155,181,189,198,202,220,223
1
1.8500
1.851
0
lS2S3Sl
3 so -
ls2
ls
0
pz
- ls2plP;
1s2p'P;
- 2p 21
lS2S3Sl
-2s2p3p2
1szplp;
- 2P 21
17*,18*,53,55,111,118,123, 127,130,151*,152,181*,189, 198,202,220,223
8.8913
16,17*,18*,32,38,53,55,85,95, 111,118,123.129,130,151,152, 164,167,181,189,198,220,223
223
D2
223
223
so
1.592
ls2
ls 0 - 1s3plp;
0.156
0.16
17',18*,32*,38,85,151,167, 181*,189,220
1.518
Is2
ls
0.0580
0.057
32*,67,85,151,152,167,181*, 189,220,239
1.46
ls2
ls
0.028
152.181*.189
0
- ls4plP;
0 - ls5plP;
281
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3. March
1979
K. MORI,
M. OTSUKA,
Grotrian
and T. KATO
TABLES.
Transition
Diagrams
for FeVIII-FeXXVI
Data
See page 233 for Explanation of Tables
Fe XXVI Configuration
.I
gf
f
IP = 9278
2s 2 sl,2
- 3p Q2
1.7815
1s
2
2 - 2P p;,2
References 151*,181,239
'i 0.8324
1 0.421
17*,18',38,55,85,95,151,152, 167,180',181*,220,223,239
2 1.7770
1.51
2S l/2
Is 2 s1/2
1.43
2 Is
s1/2
-
17*,18*,55,167,180*,181*,223,
p;/2
2 - 3P Q2
- 4P2P0
eV
A
2
9.63
s1,2
(Ii - Sequence)
0.1582
0.079
18*,32,151,181*,220
151,220,239
l/2
1.40
Is 2 %/2
2 - 5P p;,2
151,220,239
1.39
Is 2 s1/2
- 6~ 2P;,2
151,239
282
Atomic
Data and Nuclear
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Vol. 23. No. 3. March
1979
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Grotrian Diagrams for FeVIII-FeXXVI
andT. KATO
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H.S. Stockman, Jr., J.R.P. Angel, R. Novick and B.E. Woodgate: "Bragg Spectroscopy of Scorpius X-I in Search of the Fe XXV Emission Lines," Astrophys. J. -183 (1973) L63.
215.
L.A Svenson and J.O. Ekberg: "Spectra of Ti V, Ti VI and Ti VII in the Region lOO4OOa/l Ark. Fys. -37 (1968) 65. Wavelengths of Coronal Transitions in the Configurations L.A. Svenson: "Predicted Physics -18 (1971) 232. 3sz3p*, 3sz3p3and 3s23p ""Solar
of Many-Electron Walker:
"Solar
Fe I through
in Soft
202.
216.
Levels
Bull.
Atoms,"
Fe XXVI,"
Chem.
Phys. Rev. A4 - (1971)90.
X-Ray Spectrum below 25ft,"
and R. Tousey: "Forbidden Astrophys. J. -214 (1977) "High-Resolution Spectrograph,"
"X-Ray Spectra
J.Phys.
Space Res. &(1968)439. States
of TwoFlare
Lines of the Solar 898.
Corona and
Extreme-Ultraviolet Solar Spectrum Astrophys. J. -169 (1971)L27.
from Highly
Ionized
Levels and Transition Probabilities for Highly Sequence," J. Opt. Sot. Amer. 61(1971) 942. Strengths 1109.
Plasma Points
Iron and Nickel," Ionized
in
Atoms
for the Magnesium
"Graphical Presentations of Systematic Trends of Atomic Isoelectronic Sequences and New Oscillator Strengths Astrophys. J. Suppl. No.196 23 (1971) 103.
292
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3, March
1979
K. MORI,M.OTSUKA,andT.
KATO
Grotrian Diagrams for FeVIII-FeXXVI
REFERENCES
FOR TABLES
217.
L.A. Svenson, J.O.Ekberg and B.EdlBn: "The Identification Solar Corona," Solar Physics 34 (1974) 173.
218.
M. Swartz, S.O. Kastner, Co, Ni, Cu; Classifications J. Phys. B: Atom. Molec.
219.
M. Swartz, S.O. Kastner, L. Goldsmith and 3p63d-3p53d4s Transition in Iron, -66 (1976) 240.
220.
W.H. Tucker and M.Koren : "Radiation from a High-Temperature, Low-Density The X-Ray Spectrum of the Solar Corona," Astrophys. J. -168 (1971) 283.
221.
C.E. Tull, R.P. McEachran and M. Cohen: "Relativistic Energies and Theoretical Dipole Oscillator Strengths Atomic Data 3 (1971) 169.
222,
C.E. Tull, M. Jackson, R.P. McEachran and M. Cohen: "Electric in Fe XVI, Co XVII and Ni XVIII," J. Quant. Spectrosc.Radiat.
223.
J.J. Turechek and H.-J. Kunze: "Time-Resolved Spectroscopic Observations of a High Temperature, High Density Plasma in a Vacuum Spark, " Z.Physik A 273 (1975) 111.
224.
F. Tyrhn: "Die Ultraviolett,"
225.
"Oscillator Strengths and Transition Probabilities D.S. Victorov and U.I. Safronova: of the Be (I) Isoelectronic Sequence For 2p2-2s2p and 2s2p-2s' Transitions," J. Quant. Spectrosc. Radiat. Transfer -17 (1977) 605.
226.
Corrected Calculations W.J. Wagner and L.L. House: "Empirically Lines from the 3p53d Configuration," Astrophys. J. -166 (1971)
227.
A.B.C. Walker, Jr."The -13 (1972) 672.
228.
A.B.C. Walker, Jr., H. R. Rugge and Kay Weiss: "Relative from X-Ray Observations I. Sodium, Magnesium, Aluminum, Astrophys. J. -188 (1974) 423.
229.
A.B.C. Walker, Jr., H.R. Rugge and Kay Weiss: "Relative Coronal Abundances Derived from X-Ray Observation. II. Nitrogen, Oxygen, Neon, Magnesium, and Iron," Astrophys. J. -192 (1974) 169.
230.
Strengths and Forbidden B. Warner and R.C. Kirkpatrick: "Energy Levels, Oscillator Transition Probabilities in the SC II Isoelectronic Sequence," Mon. Not. R. astr. Sot. -144 (1969) 397.
231.
B. Warner and R.C. Kirkpatrick: sot. -147.(1970) 115.
232.
A.W.
233.
K.G. Widing and G.D. Sandlin: "Analysis J. -152 (1968) 545. 110A," Astrophys.
234.
K.G. Widing, Ionized Iron Astrophys. J.
235.
K.G.Widing,S.Sandlin and R. Cowan: "Identifications Nickel Lines in the 200-4001 Region of the Solar (1972) 665.
236.
K.G. Widing:
237.
K.G. Widing: "Fe XXIII J. -197 (1975) L33.
Weiss: Sequences,"
of Fe IX and Ni XI in the
E. Rothe and W. Neupert: "Soft X-Ray Spectra of Cr, Mn, Fe, in Ne I, Fe I, 0 I, N I, and C I Isoelectronic Sequences," Phys. 2 (1971) 1747.
optischen L-Spektren 2. Phys. 111 (1938)
Coronal
and W.M. Neupert: "Observations of 3p53d-3p54f Cobalt, Nickel, amd Copper," J. Opt. Sot. Amer.
der Elemente 314.
X-Spectrum
"Hartree-Fock Line Strengths Radiat. J. Quant. Spectrosc.
Corrections to Ionization for Fe XVI, Co XVII and Ni XVIII," Quadrupole Transitions Transfer -12 (1972) 893.
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"Theoretical
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im extremen
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Visible
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Abundances Derived Sulfur, and Argon,"
in Fe IV,"
Mon Not. R. astr.
for the Lithium, Sodium and Copper Isoelectronic Transfer -18 (1977) 481. of the Solar
Spectrum in the Spectral
Range 33-
G.D. Sandlin and R.D. Cowan: "On the Classification of Some Highly and Nickel Lines in the 200-4001 Region of the Solar Spectrum," -169 (1971) 405.
"Coronal
Identifications
below 4001,"
of Some Spectrum," Nucl.
263; and Fe XXIV 2551 Emission
293
Highly-Ionized Iron and Space Sci. Rev. -13
Instr.
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Atomic
Meth. -110(1973)361. Flares,"
Data and Nuclear
Astrophys.
Data Tables,
Vol. 23, No. 3. March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
REFERENCES 238.
K.G. Widing Astrophys.
J.
and J.D. Purcell: L151. -204 (1976)
“The
for FeVIII-FeXXVI
FOR TABLES
Lithium-like
239.
W.L. Wiese, M.W. Hydrogen through
Smith and B.M. Glennon: Neon, ” NSRDS-NBS4 (1966)
240.
B.E. Woodgate, H.S. Stockman, J.R. [Fe XIV) Coronal Lines at 5303A in
241.
H. Zirin, from 1300
L.A. Hall and H.E. to 2501 as Observed
Hinteregger: in August
242.
H. Zirin: -140 (1964)
“Identification 1332.
Extreme
of
Diagrams
“Atomic .
2s2S-2p2P
Transition
P. Angel and R.P. the Cygnus Loop,”
in
Probabilities.
Kirshner: Astrophys.
“Detection J. 188
“Analysis of the Solar Emission 1961,” Space Res. 2 (1963) 760.
Ultraviolet
294
Transition
Solar
Emission
Atomic
Lines,”
Data and Nuclear
Solar
Flares,”
Vol.1.
of (1974)
the L79.
Spectrum
Astrophys.
Data Tables,
J.
Vol. 23. No. 3. March
1979
DATA AND NUCLEAR
GROTRIAN
DATA TABLES
DIAGRAMS
23,195294
FOR HIGHLY KAZUO
Institute
IONIZED
IRON FEVIII-FEXXVI
MORI
of Physical and Chemical Research Wako-shi, Saitama 35 1, Japan
MASAMOTO Institute
(1979)
OTSUKA
and TAKAKO
KATO
of Plasma Physics, Nagoya University Nagoya 464, Japan
Energy levels and Grotrian diagrams for FeVIII-FeXXVI are presented. Wavelengths, configurations for each transition, oscillator strengths, and radiative transition probabilities are tabulated with references.
0092-640X/79/030195-100$2.00/0 Copyright 0 1979 by Academic Press, Inc. All rights of reproduction in any form reserved.
195
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3, March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
CONTENTS
INTRODUCTION........................................... EXPLANATION DIAGRAMS
FOR FeVIII
EXPLANATION TABLES.
OF DIAGRAMS
. . . . . . . . . . . . . . . . . . . . . . . . , . . . 198
- FeXXVI
OF TABLES
196
. . . . . . . . . . . . . . . . . . , . . . , . . . . 200
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 233
Transition Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 234 Wavelengths, configurations, oscillator strengths, transition probabilities, and reference numbers for FeVIII -FeXXVI
REFERENCES
FOR TABLES
. . . . . ..*..*...*................
283
INTRODUCTION Energy levels and Grotrian diagrams of FeVIIIFeXXVI are presented. They were originally compiled for our studies on impurities in tokamak plasmas and on the spectral intensity distribution of solar radiation. When our work was started in 1973, the only useful bibliography was in the wavelength tables by Kelly and Palumbo,l which, however, did not supply us with sufficient information above FeXVIII. Since then, Fawcett2 has presented a review on the classification of highly ionized atoms, including iron. Reader and Sugar” published the energy levels of iron, Fe1 through FeXXVI, derived primarily from available spectra. Fawcett4 made a compilation of the lower resonance transitions of ions, Z 5 28, supplemented by wavelengths predicted theoretically. The latter two articles almost completed the data on iron up to FeXX. Since 1975, the emphasis has been on the carbon-, boron-, beryllium-, and lithium-like FeXXI-FeXXIV ions. At first their lines were identified in solar flare spectra, and later, they were compared with laboratory data from laser and tokamak plasmas. The high-power laser (up to 100 GW) provided extensive classifications of FeXIX-FeXXII (Kononov et a1.5), and tokamaks supplied definite identification of the principal resonance transitions of FeXXIII and FeXXIV (Hinno@). For example, the lithium-like 255-A and 192-A lines were recently classified (Widing and Purcell,’ Sandlin et a18) with a spectrograph on a satellite by analyzing isoelectronic sequences from MgX to NiXXVI. They were finally confirmed by Hinnovs in the experiment on the PLT tokamak; FeXXIV (Li sequence): 255.11 + 0.03 A, and 192.05 -I 0.03 A, ~.s~S~,~-~JI~P,,,. ~2s1,2-wpl,2, In high-temperature plasmas (of 1 million degrees or more), elements such as iron are ionized up to the
2,s22@’ configurations. Spectra of these ions, FeXVII through FeXXIV, lie mainly in two wavelength regions: the first between 10 and 17 A, which includes 2p”-2p”-‘3d emission lines, and the second between 90 and 270 A, where spectra of the 2.~~2p~-2@~+~ transitions are found. We have summarized the data published recently (up to 1976) in addition to those in the above-mentioned references. The wavelength tables thus compiled were converted to the accompanying diagrams. Diagrams showing transitions from one energy level to another are called “Grotrian diagrams.” Typical examples of such diagrams are found in the book published by Bashkin et allo In the usual diagrams such as Bashkin’s, the line density is sometimes too great for each line to be drawn distinctly because most of the transition lines are connected obliquely to the common lower levels. In the present diagrams, all the lines are drawn in parallel and connected to the lines extended from the lower levels. As a result, dense packing of lines and figures is avoided. Furthermore, the multiplet lines are accommodated as a whole. Our diagrams are, so to speak, combinations of tables of wavelengths and energy levels. Thus, the desired wavelengths and level energies are easily found. Also, the wavelength values are lined up in various groups, so that the characteristics of the transitions can be discerned at a glance. The wavelengths and level energies have been derived mostly from experimental spectra in laboratory or solar plasmas, except a few that are due to Fawcett’s predictions. (August 1977)
196
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3, March
1979
Grotrian Diagrams for FeVIII-FeXXVI
K. MORI,M.OTSUKA,andT.KATO
ards and Y.-K. Kim of Argonne National Laboratory. One of the authors (K.M.) is especially indebted to Dr. A. Funahashi and others in the tokamak group of Japan Atomic Energy Research Institute for their continuous encouragement during this work.
The present Grotrian diagrams were originally published in 1977 as a report (IPPJ-AM-3) of the Institute of Plasma Physics (IPP), Nagoya University. We have added tables of wavelengths, oscillator strengths, and transition probabilities and references relevant to the diagrams. Since the tables were compiled after the completion of the diagrams, the references for the tables include those through 1978. This work was performed as one of the activities of the Working Group on Atomic Processes at the Research Information Center, IPP. Larger diagrams (52 x 36.5 cm) are available upon request to the Research Information Center, as long as the supply lasts. According to some recent information, two kinds of publications are expected to appear in relation to the present tables. One is an article by J. P. Desclaux, K. T. Cheng, and Y-K. Kim, which has been submitted to J. Phys. B, entitled “Relativistic Energy Levels of FeXXI.” This article shows the calculated energy levels of FeXXI with configurations 2s22p2, 2s2p3, and 2p4. The other is a critical compilation on transition probabilities of Fe1 through FeXXVI, Co1 through CoXXVII, and NiI through NiXXVIII, which will be published in J. Phys. Chem. Ref. Data in late 1979 or early 1980. The authors are K. R. Fuhr, G. A. Martin, S. M. Younger, and W. L. Wiese. These two publications will supplement the present data compilation . Very recently, Dr. Katharine Way informed us of two further publications, which are referenced at the end of this introduction (Kelly and Harrison,” Fawcett12). (July 1979)
References
for Introduction
1. R. L. Kelly and L. J. Emission Lines below through Krypton, NRL ment Printing Office, No. 0851-00061 (1973)
Palumbo, Atomic 2000 Angstroms: Report 7599, U. Washington, D.
and Ionic Hydrogen S. GovernC., Stock
2. B. C. Fawcett, Advan. Atom. Mol. Phys. 10, 223 (1974) 3. J. Reader and J. Sugar, J. Phys. Chem. Ref. Data 4, 353 (1975) 4. B. C. Fawcett, ATOMIC DATA AND NUCLEAR DATA TABLES 16, 135 (1975) 5. E. Ya. Kononov, K. N. Koshelev, L. I. Podobedova, S. V. Chekalin, and S. S. Churilov, J. Phys. B 9, 565 (1976) 6. E. Hinnov,
Phys. Rev. A 14, 1533 (1976)
7. K. G. Widing and J. D. Purcell, Astrophys. L151 (1976)
J. 204,
8. G. D. Sandlin, G. E. Brueckner, B. E. Scherrer, and R. Tousey, Astrophys. J. 205, L47 (1976) 9. E. Hinnov, private communication phys. J. 230, L197 (1979)
(1977); Astro-
10. S. Bashkin
and J. 0. Stoner Jr., Atomic Energy Levels and Grotrian Diagrams, Vol. I, Hydrogen Z-Phosphorus XV (North-Holland, Amsterdam,
Acknowledgments
We owe special thanks to Drs. S. Hayakawa, Y. Itikawa, and S. Ohtani of Nagoya University and K. Way of Duke University for their valuable comments and kind arrangement for publication. Useful suggestions were given to us by Professor K. 'YE&ayanagi, Professor H. Suzuki, and others in the working group for compilation of atomic data for fusion research in the Institute of Plasma Physics, Nagoya University. Valuable comments were also given to us by Drs. W. L. Wiese of the National Bureau of Stand-
1975) 11. R. L. Kelly
and D. E. Harrison,
AND NUCLEAR
ATOMIC DATA DATA TABLES 19,301(1977)
12. B. C. Fawcett, Theoretical oscillator strengths for 2s22pn-2s2pn+’ and 2~2p”+‘-2p”+~ transitions and for 2s22pn “forbidden” transitions. Be I, B I, C I, N I, 0 I series,Z 5 26, ATOMIC DATA AND NUCLEARDATA
197
Atomic
TABLES 22,473
Data and Nuclear
Data Tables,
(1978)
Vol. 23, No. 3, March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
EXPLANATION FeVIII, etc.
FeXXII
8% 8:: 3,2
f3P”)4s
$0
112
FeXXVI
,
for FeVIII-FeXXVI
OF DIAGRAMS
Ion species of iron, Fe +7, Fef25, etc. According to conventional expression in spectroscopy, Fe1 indicates the first spectrum, that is, the spectrum of the neutral atom which was first identified, Fe11 the second spectrum belonging to singleionized ion, and so on
II-Sequence, HeSequence, etc.
The relevant ions have the same electronic urations as those of neutral hydrogen, helium, etc.
Ordinate
Energy of the levels in cm-’ and eV. Transition wavelengths are shown in angstroms
‘S, ‘PO, etc. (‘/;, 1/2) 2[1h], etc.
Configurations of initial and final states. Under FeIX (A sequence) and FeXVII (Ne sequence) ‘S, P, etc., indicate LS coupling, and (l/i, M), 2[1A], etc., indicate ji coupling
Limit
The ionization
11013ooo
Normal vertical type, light horizontal lines: energy level value, in cm-‘, calculated from observed wavelengths in present compilation
4s
Orbital
1%
J-value
37.66
Wavelength,
842930 837750
Bold vertical type, heavy horizontal from Reader and Suga?
(T)4s
Configuration of parent argon core to which a 4.r electron has been added, resulting in configurations 2Po and 4Po
312,
‘95
limit,
configneutral
in cm-’ and eV
of excited electron
in A
lines: values
J-values
IIT
FeVIII
8s s;x @a-.
Italic
2047904 1941046
vertical type, heavy horizontal from Fawcett4
lines: values
E+$g+$ FeXX 198
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3, March
1979
K. MORI,
M. OTSUKA,
132.85
121.83 118.66
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
Heavy vertical lines: resonance transitions with absorption oscillator strengthf 2 0.1. The choice f 3 0.1 is rather arbitrary, but gives a fairly reasonable clue for estimating spectral intensities in various plasmas
FeXX
2 s ‘j 6s $
l/2
Tr
XTY,Z
In FeVIII, x means that the level energy is measured from the x level, which is not yet absolutely determined in energy, because those groups of levels including x have no transitions connected to the ground level. x is used in FeVIII, XII, XIII, XIV, XIX, and XX. y in FeXII and FeXIV and z in FeXIV represent different groups of lines with the same meaning as x. In the case of FeXIX and FeXX, thex level is not shown, because x means small ambiguities in this case. Especially in 2s2p4 9 of FeXX, Reader and Suga? did riot specify absolute energy values, but Fawcett (shown in italics) could determine the absolute values by means of identification of the intercombination line
3P5(2p”) l 3d2(3P)
The configuration
I
FeVIII
3pw=-,~!3 l 3d’f’P)%%
~P”(~P”) 3d2 (“P). The expressions ~P~(~P”) 3d2(3P) 2P”, ~P”(~P”) 3d2(3F) 2Do, 3p5 (“PO) 3d2(3F) 2Fo are adopted from the tables by
312 l/2
Reader and Suga?
r
FeVIII
3P, 3D 3s3p34d
3s3p3 4d 3P and/or 3D
3P,3P 3s3p3d2
3s3p3d2 3Po and/or 3Do
FeXIII
199
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3, March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198 for Explanation of Diagrams I *P
*PO
*D
’ I
*F”
*Do
4po
I
4Do
4F0
Fe VIII (K-Sequence)
200
Atomic
Data end Nuclear
Data Tables,
Vol. 23. No. 3. March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII- FeXXVI See page 198for Explanation of Diagrams
‘P”
(‘h.‘/P
IDo
IF0
1F 1G P/z,%) (‘h,%)
3P0 (%,‘/P
1
I
Fe IX(A-
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3, March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII- FeXXVI See page 198for Explanation of Diagrams
r
( 2P0
1
2D
2D” I
7
i I
-
Fe X (Cl -Sequence)
202
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3, March
1979
K. MORI,
M. OTSUKA,
Grotrian
and T. KATO
Diagrams
for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198for Explanation of Diagrams
2F
2F”
2G (
2G”
I&
4P
14P014DoI
4F
T
1
Fe X (Cl - Sequence)
203
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3, March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII- FeXXVI See page 198 for Explanation of Diagrams
I i 3D
I
3D”
3F
I
Fe XI (S -Sequence)
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3. March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIIIFeXXVI See page 198 for Explanation of Diagrams I
3G”
j
‘PO
I
1‘D I
T
I
‘D”
‘F’
Fe XI (S-Sequence)
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3. March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVXXX-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198 for Explanation of Diagrams
49
4P
4D
4Do
4/=
4F“
-0
2s
2P
2P0
s B 5/z1: ‘PIG ei r
I, :;
D $!Tl-
-
1
Fe XII (P-Sequence)
206
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3, March
1979
K. MORI,
M. OTSUKA,
Grotrian
and T. KATO
Diagrams
for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198 for Explanation of Diagrams
43
I
I
I
I I
I
*Do
w ..c ,.
Fe XII (P-Sequence)
207
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3, March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIIIFeXXVI See page 198 for Explanation of Diagrams T
39
3P
I
I 3DI
3P0
3D” I
I
Fe XIII (Si -Sequence)
208
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3, March
1979
K. MORI, M. OTSUKA,
Grotrian Diagrams for FeVIII-FeXXVI
and T. KATO
DIAGRAMS FOR FeVIII-FeXXVI See page 198for Explanation of Diagrams
3F
3F”
36
1s
‘P
‘PO
‘D
‘Do
[
‘F”
/
‘G
c
--M
-
18
-
73
-18
200
-1,
( <
-70
,ilob --Bo
1
---a0 -3
1x106
-30
-2
‘.,I?
-20
xro”
-7
-
10
Fe XIII (Si -Sequence)
209
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3. March
1979
K. MORI,
M. OTSUKA,
and T. KATO
DIAGRAMS
Grotrian
I
2P
for FeVIII-FeXXVI
FOR FeVIII-FeXXVI
See page 198 for Explanation
2s
Diagrams
I
of Diagrams
2D
E 2D” I
2F
$
Fe XIV (Al - Sequence)
210
Atomic
Data and Nuclear
Data Tables,
Vol. 23, NO. 3, March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198for Explanation of Diagrams
2F0
( 49
) 4P
/
4pO
I 4DI 4FI -
18
-
I6
-14
--II
-10
-8
-6
-4
-2
1,
Fe XIV (Al - Sequence)
211
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3. March
1979
K. MORI, M. OTSUKA, and T. KATO
GrotrianDiagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198for Explanation of Diagrams
‘F”
3s
3PO
P ” -I
a :
E I
Fe XV (Mg-Sequence)
212
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3, March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198 for Explanation of Diagrams
3F0
3D
-
-
=
= -
36
Fe XV (Mg - Sequence)
213
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3, March
1979
K. MORI,
M. OTSUKA,
and T. KATO
DIAGRAMS
Grotrian
Diagrams
for FeVIII-FeXXVI
FOR FeVIII-FeXXVI
See page 198 for Explanation of Diagrams
!I
1.1d-
SO-
-
L--
.&.!G
Fe XVI (Na -Sequence)
214
Atomic
Data and
Nuclear
Data Tables.
Vol. 23, NO. 3, March
1979
K. MORI, M. OTSUKA,
Grotrian Diagrams for FeVIII-FeXXVI
and T. KATO
DIAGRAMS FOR FeVIII-FeXXVI See page 198for Explanation of Diagrams I 2D
I
I ’ 2D=’
2F0
Fe XVI (Na -Sequence)
215
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3, March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198for Explanation of Diagrams
lPO ’ lPO
I lD
I lDO I
t 5
W’
-
i
I!
I’ ::
a2 a*
I
E
I Fe XVII
-
(1Ve - Sequence) 216
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3. March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198 for Explanation of Diagrams
3P0
3D” WI0
I cm-
a”
OXlo” --Iml
0x10” -
f 5 5
-low 8.10”
7”ld
--em
6.100 -
5rrd ---Ma
-
-
k
XVII
Je - Sequence)
217
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3, March
1979
Grotrian Diagrams for FeVIII-FeXXVI
K. MORI, M. OTSUKA, and T. KATO
DIAGRAMS FOR FeVIIIFeXXVI See page 198 for Explanation of Diagrams
*PO
2P
WY r I/?’I’ E! f !?J
n c
-
Fe XVIII (F-Sequence)
218
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3. March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198for Explanation of Diagrams
2D
I I 2F
4P
Fe XVIII (F -Sequence)
219
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No
3. March
1979
K. MORI,
M. OTSUKA,
Grotrian
and T. KATO
Diagrams
for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198 for Explanation of Diagrams
1D
‘P” I
‘F’ I
-?
-
Fe XIX (O-Sequence)
220
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3. March
1979
K. MORI,
M. OTSUKA,
Grotrian
and T. KATO
Diagrams
for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198 for Explanation of Diagrams
1
3D”
3P0
i
Fe XIX (O-Sequence)
221
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3, March
1979
K. MORI, M. OTSUKA, andT. KATO
GrotrianDiagramsfor FeVIII-FeXXVI
DIAGRAMS FOR FeVIII- FeXXVI See page 198for Explanation of Diagrams
2s
2P
2D I
4 I
L T
2 2
S/2. 11 3/2’
I
=
=
-
-
= =
Fe XX (N -Sequence)
222
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3, March
1979
Grotrian Diagrams for FeVIII-FeXXVI
K. MORI, M. OTSUKA, and T. KATO
DIAGRAMS FOR FeVIII-FeXXVI See page 198 for Explanation of Diagrams
XP
I
2F
4SO
I
I
3123 . -
-
Fe XX (N -Sequence)
223
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3. March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIIIFeXXVI See page 198 for Explanation of Diagrams I
I ‘D
‘P”
‘D”
Fe XXI (C-Sequence)
224
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3. March
1979
K. MORI,
M. OTSUKA,
Grotrian
and T. KATO
Diagrams
for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198 for Explanation of Diagrams 1
3DD
3PO
3P
) 3F
/
3F”
1
I
Fe XXI (C-Sequence)
225
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3, March
1979
K.
MOFU, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIIIFeXXVI See page 198 for Explanation of Diagrams
2s
29
2P
2P0
I
&u
-
Fe XXI I (B - Sequence)
226
Atomic
Data and Nuclear
Data Tables,
Vol. 23, NO. 3, March
1979
Grotrian Diagrams for FeVIII-FeXXVI
K. MORI, M. OTSUKA, and T. KATO
DIAGRAMS FOR FeVIII- FeXXVI See page 198 for Explanation of Diagrams I 2D0
I
I 2F”
I 4SO
I
4P
4D”
i
I
I
I P fJ
Fe XXI I (B -Sequence)
227
Atomic
Data and Nuclear
Data Tables,
Vol. 23. NO. 3, March
1979
Grotrian Diagrams for FeVIII-FeXXVI
K. MORI, M. OTSUKA, and T. KATO
DIAGRAMS FOR FeVIII- FeXXVI See page 198 for Explanation of Diagrams
‘P”
‘D”
‘D
‘F”
I QS’ZP
1
(Be -Sequence)
228
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3, March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII- FeXXVI See page 198for Explanation of Diagrams
3s I
3P
3DO
3D
3PO
I
I
3Fo
I
I
3
4
241 r ax
B c
f
2pY5
-
E
-
-
Fe XXI I I (Be -Sequence)
229
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3, March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII- FeXXVI See page 198 for Explanation of Diagrams
I I
2po
2P
20
I
f J
1 2F” I
x
( 4P I
an
1 4p
I ,aM
= -
-
Fe XXIV (Li -Sequence)
230
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3, March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
DIAGRAMS FOR FeVIII-FeXXVI See page 198 for Explanation of Diagrams
‘PO
‘D
‘F”
3PO
3s
30
3F”
Fe XXV (He-Sequence)
231
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3. March
1979
Grotrian Diagrams for FeVIII-FeXXVI
K. MORI, M. OTSUKA, and T. KATO
DIAGRAMS FOR FeVIIIFeXXVI See page 198 for Explanation of Diagrams
1
2P0
I K -I In-
t ; J
c I/?-
t
Ja 1/z-
0 -m
II-
-
Fe XXVI (H -Sequence
232
Atomic
Data and
Nuclear
Data Tables.
Vol. 23, No. 3. March
1979
K. MORI,
IP A f i 1.2841°
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
EXPLANATION
OF TABLES
for FeVIII-FeXXVI
Ionization potential, in electron volts Wavelength in A Absorption oscillator strength Statistical weight of lower state Radiative transition probability in set-’ 1.284 x 1O’O
The sixth column gives the numbers of the relevant references. An * indicates that the reference is for oscillator strength or transition probability
233
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3, March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables VIII
Fe
(K - Seauence)_
IP = 151.06
x 370.427 365.873
223.870
Configuration
3p64p2p
3/z 2P
4p2P 2P
196.046
3d2Do
194.762
187.225
186.609
185.225
168.933
168.548
168.176
167.488
6
5s
0.264
0.1321
1.2841°
47:151,152,159
SO
0.267
0.1337
6.692'
47:151,152,159
0.049
0.02443
6.503'
47:151,152,159
0.049
0.02462
3.325'
47:151,152,159
l/2
0.103
0.05144
1.785
2P
3/Z
0.248
0.0619
1.6211'
47:151,152,159
2P
3/z
0.041
0.01036
1.821'
47:151,152,159
6s 2 2
Y/z T/z
4P2P
3/2-
5/2
D;/2-
2 53 22 -3~ ( F)3d F;,2 3d D5/2
6,18,43,47:77,95,114,119, 120,121,151,152,172*
0.501
6,7,8,18,43,47:77,95,108,114, 119,120,121,151,152,172:227, 236
P;,2
0.467
6,8,18,43,4~77,95,114,119, 151,152,172
P'
0.563
6,8,18,43,47:77,95,114,119, 151,152,172*
0.678
6,7,8,18,43,47:77,95,10~,114, 119,120,121,151,152,172,227, 236
0.658
6,7,8,18,43,47:77,95,108,114, 120,121,151,152,172:236
F;/2
2
2 F;/2
D5/2-
3 P)3d 22
2
2 D5/2-
2 3d D5,2-(3F)3d22Do
2 3/2-
130.939
2D
D;/2
4f2Fo
3d2D 5,2-(3P")4s4P;,2
119.37
3d2D
3/z
712
2 FO 512
3/2-
120.31
2
3/z
512
2D
2D
118.28
2 3d D5,2-
6,47:95,151,152,159,172*
0.4349
1.12811
6,47:95,151,152,159,172*
44,104,152 2
44,104,152
p;/2 2 PO
44,104,152
3/2
(3F")4s4Fa 4
D3/2-
1.20011
-(3P")4s2P;,,
3/2-
2
0.4132
44,104,152
D5/2-
118.63
47:151,152,159
0.522
2
3,2-(
10
6,8,18,43,47:77,95,121,151, 152,172*
D3/2-
3d2D
References
0.025
2
2 3d D5/2-
117.65
s;,2
2
l/2
1/2-
131.242
118.89
A
1/2-
2 DO 2
f
2
3/2-
222.189
195.476
-3p
gf
eV
44,104,152
712
44,104,152
FO
5/z
234
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3. March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables
F
VIII
(K - Sequence) IP = 151.06
.A 117.18
Configuration 3d2D
116.43
2D
3
F")4s2Fo
f
A
5/2-
44,104,152
FO
44,104,152
FO
44.104.152
512
2
5/2
2
3d D5,2-(3D0)4s4Do 2
114.05
2D
44,104,152
712
D5/2-
4 DO
44.104.152
5/z
4
DO
44,104,152
5/z
3/2-
3d2D ,,,-?F')~s~F"
44,104,152
712
112.70
44,104,152 2D
112.49 112.47
2D
98.374
93.616 93.469
2 3/22
5f
2
44,104,152
DO
44,104,152
F;/2 2
D3/2-
2 D5/22D
3d2D
DO 312
2 D5/2-
3d
44,104,152
5/2
2 3d
DO
5/2
5/2-
D5/2-
107.872
98.548
2
2
112.25
108.083
eV
References
7/2 2
D3/2-
114.29
112.93
-(
2
116.18
114.56
512
gf
F;/2
6f2Fo
712
2 3/2-
F;/2
2 5/2-
2
7f
F;/2 2
D3/2-
FO
5/2
1.313
0.1641
7.0291°
47:151,152,159,174,233
1.036
0.1727
6.5991°
47:151,152,159,160,233
0.642
0.08025
4.1361°
1,47:151,152,159
0.505
0.08422
3.881
0.362
0.04537
2.6021°
0.286
0.04771
2.442
235
10
1,47:151,152,159
1,47:151,152,159 10
Atomic
1,47:151,152,159
Data and Nuclear
Data Tables,
Vol. 23. No. 3. March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES.
Transition
Data
See page 233 for Explanation of Tables Fe
1X
(A
- Sequence) IP = 233.6
a 244.912
Configuration
gf
f
6,8,51,77,95,114,146,217
ho-
3
71
p;
230.48
3p61so-
3d3F;
218.93
3p61so-
3dlD;
217.108
3p61so-
3d3D;
171.075
3p61so-
3dlP;
118.27
3d1F3-4flG4($,$
116.42
3d3D;-4f3F32[$l 3
D;-
3d1D;-4fh3(+,$)
114.111
3 3d F;-4f
113.80
112.375
3 F”3 3 F;-
6,8,51,77,95,114,146,217*
114,171,181
27
217*
6,8,51,77,79,87,95,114,146, 148,151,152,215,217 3.72
3.720
2,6,7,17:18:43,51,52,77,79,84: 87,95,103,108,114,119,120,121, 146,151:152,172:199,217,227, 236 90,219
2.28 3F42
115.353
114.027
References
3s23p61SO-3s23p53d3P;
241.739
115.996
A
90:152,219,226 152,226
[;I
1.97
90:152,219,226
3G3 29[?I
1.85
90:152,219,226
3G42 $1
2.80
90:152,219,226
4.35
90:219,226
3
G5
29
'51
3d3P;-4f3D22[$]
219,226
3D32
$1
112.017
3 PO2 3 Pi-
3D12
$1
111.791
3Po-
3D22
$1
1.18
90:152,219,226
111.713
3 PO-
3D12
$1
0.56
90:152,219,226
112.096
1 0
105.236
3p6+S
103.580
83.444
eV
90:152,219,226 90,152,219,226
J 148 .
0.147
6,84:90:103 174,219,2335242
3p61so-~2P.~4slP;~3,~~.
0.229
0.229
6,84:90:103,151:152,160,172~ 219,233:242
3~61so-~2P")4~3P~2[~lo
0.469
0.469
1,6,84:90:152,172:219
0
-(2Po)4s3Po(z
2.05
1 2'2
$
236
Atomic
Data end Nuclear
151:152,160,172:
Data Tables,
Vol. 23. No. 3. March
1979
Grotrian Diagrams for FeVIII-FeXXVI
K. MORI, M. OTSUKA, and T. KATO
TABLES.
Transition
Data
See page 233 for Explanation of Tables
Fe h
1X
(A - Sequence)
Configuration
82.423
3p61SO-(2Po)4$P;2
73.618
3p61s
0
-(2P")5s3Po(z
[;I”
1 2‘2
gf
f
0.241
0.241
A
References
1,6,84:90:95,152,172:219
$0
1.152.219
72.85
1,152
237
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3. March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES. Transition Data See page233 for Explanation of Tables X
Fe
cca - Sequence) IP = 262.1
Configuration
.A
6374.51
3s 2 3p 52p.
365.57
3p52P
gf
-3s23p52p.
3/2 l/2
l/2
2
345.750
2 PO3/2-
sl/2
eV
Peferences
55.89
l/2
-3s3p62S
A
f
48,142,177:202
0.0695
0.03
1.60'
8,17:18:49:~1,7~,86,87,89,114, 151,152,192,234
0.141
0.03
3.66'
8,17:18:51,63,77,79,86.87,89, 95,114,119,151,152,175,192: 234:236,242
190.044
3P52PO ,,,-(1D)3d2Sl,,
0.456
0.160
10
4.37
6,8,20:49:51,77,79,84:87,95, 114,119,148,151:152,172:192*, 227
184.542
2 PO 3/2
28
m
1.25
0.59
l.2711
6,7,8,24:51,77,79,84:87,95 108,114,119,151:152,172:19;: 227,236
182.308
3p52Po l,2-(1D)
3d2P
2
180.407
2 p;/2-
177.243
pl/2
2 PO 3/2
2P
2
175.474
IP
p;/2-
175.266
3p
52
P;,2-(1D)
2D
p;/2-
170.61
2 PO
312
l/2
3d2D3,,
2
174.534
312
-
2D
3/2
512
3/2
144.328
?D)
3d2F 7,2-
?D)
4p2D’
140.678
(‘0)
3d2G 7,2-
I'D)
~P’F”~,~
2
139.868
S/2
2
G9/2-
F’7/2
0.129
0.064
2.94g
6,8,24:43,79,83,84:87,95,151*, 152,172:192*
1.13
0.575
l.2811
6,24:43,77,79,84:87,114,151~ 152,172:192*
3.07
0.802
l.8011
6,7,8,24:43,49:51,77,79.84:87, 95,108,114,119,120,121,151~ 152,172:192:227,236
0.417
0.125
5.0110
6,8,24,43,79,84,87,95,151~ 152,172,192,227
3.41
2.01
2.0311
6,8,24:43,51,77,79,84:87,95, 114,119,120,121,142,151~152, 172:192:227
5.34
1.62
2.14
0.268
0.067
6.25’
11
6,7,8,2@,43,49,51,77,79,8@,87, 95,108,114,119,120,121,142, 151,152,172,19?',227,236 6,24:43L79,84:87,142,151,152, 172,192
0.26
901152
0.30
go:152
0.52
49:90:152
140.296
(3P)3d4P7,2-(3P)4p4D07,2
0.52
901152
137.027
(3P)3d4D7,2-(3P)4p4P05,2
0.25
go:152
104.626
(ID)
3.47
go:152
3d21' 7,2-'1D)4f2Gog,2
238
Atomic
Data and
Nuclear
Data Tables.
Vol. 23, NO. 3, March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables (ce - Sequence)
Fe X A
configuration
2
104.248
103.724
='1/2
( 3 P)3d 2 F5,2-(3P)4f2Go,,2 2
2 F7/2
?S)3d2D
GO g/2
5,2-h4f2Fo 2
102.829
102.348
2 F5/2-
103.164
103.319
gf
D
712 2
3/2-
FO
5/2
(3P)3d4F7,2-(3P)4f4G"9/2 4
102.095
4 F9/2-
101.846
4F
Goll,2
4 3/2-
G"5/2 4
A
References
1.86
49:90:152
2.17
52,90:152
2.43
90:152
3.29
go:152
1.96
49,90:152
2.96
go*
5.49
90*
1.56
go*
2.28
go*
101.733
4F
102.192
(1D)3d2Gg,2-~1D)4f2Roll,2
5.48
90:152
101.435
3 4 ( P)3d F7,2 -L3P)4f2G.g,2
1.38
49:90:152
100.026
3 4 ( P)3d D7,2 -(3P)4f4Fog,2
3.88
6,49:90:152
97.838
3ps2po 2
97.122
97.591
3p
52 2
96.788
5/2-
GO
g
-(3P)4s4P5,2
3/2 PO 3/2-
p;/2
4P
3/2
- t3P) 4s2P3,2
p;/2-
2
pl/2
96.122
2 PO 3/2-
2P
95.338
2 PO 3/2-
2P
95.374
7/2
312
1/2
3p 52 P;,2-(1D)4s2D3,2
0.014
0.003
6,67,84:90:95,151:152,172:174
0.201
0.05
6,49:67,84:90:95,151:152,172~ 174,233
67,84:90:151,152,242
0.041
0.211
0.118
67,84:90:151,174,242
0.473
0.118
6,49:67~84:90:95.151,152,172, 174,233
0.161
67,84:90:151,152,174,204
0.290
0.145
0.374
0.093
6,33,49*52,67,84:90:95,151, 152,172!174,233:242
0.151
0.076
6,84:90*
0.856
0.214
6,84:90*
6,67,84:90:95,151,152,172:
242 2
94.012
78.769
77.865
3p
52
PO 3/2-
2 D5/2
P;,2-(3P)4d2D3,2
2
2 p;/2-
D
5/2
239
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3. March
1979
K. MORI, M. OTSUKA, and T. KATO
TABLES.
Grotrian Diagrams for FeVIII-FeXXVI
Transition
Data
See page 233 for Explanation of Tables Fe h
X
ccc
Configuration
2
77.812
PO
312
52
2
-
D3/2
3p
77.728
3p52p;,2-(3p)4d4F5,2
76.822
3p
2
76.006
Pi,,-oP)4d2P3,2
P;,2-(1D,4d2Pl,2 PO
52
3p
76.495
3P52PO l,,-(‘0)
75.685
2
1/2-
76.627
2
‘3/2
P;,2-?P)4d2F5,2
p;/2-
f
gf
78.151
52
- Sequence) A
References
0.29
0.073
90*
0.16
0.04
go:152
0.15
6,84,90*
0.31
0.15
90:95,152
0.451
0.113
6,84,90:95,152
0.26
4d2D 2
312 D5/2
84,90:152
0.469
0.23
6,84:90:151,152
0.410
0.103
84:90:151,152
240
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3. March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables Fe
Xl
(S - Sequence) IP = 290.3
h
gf
Configuration
f
A
ev References
7871
33.8
129,131,142,177:202,216
3987
10.26
177:.202,216
1467.4
369.23 358.64
356.55
352.680
348.97 341.115
308.61
202.723 202.67
192.819
188.219
3p41so
3p43p1-
772.9
3p43p1-3s3p53p; 3
3 pO-
'T 3
3 pl-
';
3
p;
pl-
3 p2-
3p41c12-3s3p
51
0.12
8,1~:51,79,86,87,89,151,152,
6,8,18:51,63,11,19L86,81,89,
95,114,151,152,234,236
3
3
8,18:79,86,87,89,151,152,234* 8,1f$51,79,86,87,89,151,152, 234
0.56
'Z
3
0.19 0.15
234
3 p2-
122,145,146,152,177:202,207, 216
PO 1
Pi
0.068
18:63,79,86,87,89,151,152,234
0.20
6,8,18,51,79,86,87,89,95,151, 152,234:236
0.61
8,79,86,87,89,151,152,234*
3p41~2-(2Do)3d3P; 1
6.95 3
D2-
~P~~P~-(~V')~~~P; 3
3 p2-
188.305
3p43P2-(2P")3d3P;
184.800
~P~~D~-(~IY),~%;
6,89,95
pi
p;
0.161
0.053
6,8,24:77,79,84:87,89,95,98, 114,119,151:152,172:227
0.152
0.15
6,8,24:79,84:87,89,95,148,151~ 155,172:227
7,65,77,79,108,119,125,151, 172,202,227,236 3.14
0.538
6,8,24:51,77,79~84:87,89,95,
114.151.152.172
184.41
3p41S0-(2D0)3d1P;
2.19
182.173
3p43Pl-(4S0)3d3D;
2.89
24:79,87,89,152
0.92
6,8,24:51,77,79,83,84:87,89, 95,108,114,119,120,121,142, 151:152,172:227
181.140
180.600 180.407
3
3 pO-
3
"i 3
pl3
D; 3
p2-
9
1.31
6,8,24,51,79,84L81,89,95,119,
1.39
120,121,142,151,152,172
0.91
0.35
6,8,24:79,87,89,142,152,172*
5.30
1.15
6.7.8.24:51,77,79,84:87.89,
95,108,114,119,120,121,142, 151,152,172:227,236
241
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3, March
1979
K. MORI, M. OTSUKA, and T. KATO
TABLES.
Grotrian Diagrams for FeVIII-FeXXVI
Transition
Data
See page 233 for Explanation of Tables Fe Configuration
A
3
178.060
179.762
123.822
(‘Do)
3
123.49
123.572
(2P")3d3F;
121.747
(4So)3d5D;
t2D”)
3d3G; 3
92.81
(4So)3d5D;
91.63
5
91.63
91.394
90.345 90.205 89.178
Do
3
5
D;
-
Da
1
(2D”)
3d3F; 3
-
-
- t2Do)
F;
-
3F;
-
3
plP2-
1.31
6,7,8,24:51,77,79,84:87,89, 95,114,119,120,121,151,152, 172:236
6,90:152
0.41
90:151:152
0.23
90:152
0.45
90:152
2.77
90:151:152
F3
2.13
90:151:152
4f31i6
6.63
90:152
4.26
go:152
3.98
90:152
5.66
90:152
F4
3.86
90:152
F3
2.47
90:152
F2
1.44
90:152
3.84
90:152
G4
2.89
go:152
3G 3
2.27
90:152
p3
3
3
H5
38
4
5 5 5
4f3G5 3
3p43Po-(4So)4s3S; 3
5.64
90:152
-(4S")4f5F5 5
91.63
91.472
G' 4
3Go 3
92.87
91.63
-('DO)
6,8,24,51,79,84,87,89,95,108, 119,120,121,142,151,152,172
0.55
-(2P)4f3F4 -
0.19
0.27
-
2
0.72
*4
5
3
s;
ev References
F3
3
Go 5
Do
A
go:152
Go 4
D;
f
IP = 290.3
0.25 3
-(4So)4p5p2
3
(‘De)
3d'F;
- C2Do)4p3F2
3d'D;
92.8
91.733
t2D”)
D;
-(2P")4p3D2
5
121.419
92.87
p2-
3d3G; 3
gf 3
3p41D2-
123.49
92.9
(S - Sequence)
Xl
0.08
0.091
66,90:151:152,172:174,242
0.20
0.091
66,90:151:152,172:174,242
0.459
0.091
6,66,84:90:95,151:152,172~ 242
242
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3. March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables Fe
x
Xl
(S - Sequence)
Configuration
gf
f
A
References
89.771
3p41D2-(2D~)4s3D;
6,152,174,233,242
89.185
3p43P2-(4S")4slP;
152,174,233,242
89.104
3p41D2-(2D")4slD;
88.167
3p43Po-(2Do)4s3D;
88.029 87.995 87.025
86.772
3
3 pl-
3 pl3
"2" 3
P23
9 3
p2-
86.513
3~41D2-(2P")4slP;
86.419
~P~~P~-(~D")~s~D;
73.2
3p43Pl-~4S.)4d3D;
72.635
5 3
3
p2-
D;
0.786
0.157
6,66,84:90:95,152,172:233, 242
0.059
0.059
66,84:90:151:152,172:174
0.14
0.030
66,90:151:152,172:242
0.134
0.044
66,84:90:151:152,172:242
0.203
0.04
6,66,84:90:95,151:152,172~ 174
p.434
0.086
6.66,84*90:95,151:152,172: 174,233:242
0.28
66,90:152
66,90
3
D;
0.315
0.105
84:151:172
0.905
0.181
84:90:95,119,151:152,172:174
72.310
~P~~D,-(~D")~~'D;
0.623
84:90:151,152,174
72.166
3~~~D~-(~D')4dlF;
1.62
84:90:151
243
Atomic
Data and Nuclear
DataTables.
Vol. 23, No. 3, March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-
FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables (P - Sequence)
x11
Fe
IP = 330.8
2169.7
3s
2
3P
1349.57
3P
1242.15
3P
34
Q2
34
34
q2-
3p32P
3p34s;,2-3s3p44P5,2 4
4
3p 32 q2 2 D’
3~
3~
193.517
6,8,17:18:51,77,79,86,87,89, 95,114,151,152,234:236
0.33
0.122
6,8,17:18:51,63,77,79;86,87, 89,95,114,151,152.234,236
0.17
0.061
6,8,17:18:51,63;79,87,89,95, 151,152,187,234
8,79,86,87,89,152,234 79,86,87,89,92,152
3/2
6,8,51,79.86,87,89,95.152 79,86,87,89,152
1/2
6,8,51,79,87,89,95,151,152
\D;,2-(3P)3d;3,2
3p
32
6,8,51,77,79,87,89,95,114, 151,152
'3/Z 2
D;/2-
Pi/z-
6,8,51,79,87,89,95,151,152
p1/2
?D)
6,8,51,79,87,89,95,152
3d:p1,2
2 p;/22
198.58
195.127
32
0.183
P3/2
2P
2
201.134
195.19
42
D;,2-3s3~
1/2
0.48
D5,2
2D
3/2
51,79,87,89,151,152
D5,2
D;/2-
211.749
196.649
-
42
29,30,122,145,146,152,202, 207,216
3/2
2
217.283
201.749
-3s3p
2 DO 3/2-
283.64
219.453
32
42
4P
T/2-
29,122,145,146,152,202,207. 216
p1/2
4P 3/2
T/2-
335.06
290.997
3/2-3s3p
pi/2-
3P
32
D;,2-(1D,
6,8,51,77,79,87,89,95,114, 152
'3/2 2P
6,8,77,79,87,89,95,114,152
3/2
6,8,51,79,87,89,95,152
3d2D5,2 2
2 D;/2
3/2-
79,89,148
D3/2
3p34S;,2-(3P)3d4P
4Sa
ev
References
32 3p
364.477
346.855
?t
113,122,145,146,202,207,216
Q2-
3p32p.
352.115
f
-3s23p32D5,2
382.83
338.27
gf
Configuration
x
4P
50
2.37
3/2
1.67
3,6,7,8.51.77.79,81,84:87
0.592
89,95,108,114,119,151~152; 172:227,236 3,6,7,8,51,77,79,S1,84:87, 89,95.108,114,119,151~152, 172:227,236
0.417
Atomic
Data and
Nuclear
Data Tables.
Vol. 23. No. 3, March
1979
K. MORI,
and T. KATO
M. OTSUKA,
Grotrian Diagrams for FeVIII-FeXXVI
TABLES.
Transition
See page 233 for Explanation
XII
Fe
gf
192.402
4 SO
191.051
D 3p 32 P3,2-(3P)3d2D5,2 2
188.219
188.45
3~
32 2
186.889
2
l/2 -
?D)
2 ('P,
108.440
4F 9/2
85.669
(1S)3d2D
85.477
+D)
2
12 ( D)3d
4
4F
84.52
4F
84.48
4F
B2.837 82.744
3p
32
7/2 5/2 3/2
6,8,77,79,84:87
79,87,151
go:152
0.35
go:152
0.47
go:152
2.59
90f152
6.04
6,90:95,152
3.67
901152
3.80
90*
2.30
90.
2.00
90*
4.69
go:152
- C3P) 4f4G;l,2
6.68
6,90:95,152
-
4 GO g/2
5.26
6,90:95
-
4 GO
3.41
6,90:95
-
4 GO
2.89
6,90:95
4s2D5,2
0.12
84,90:152
2D
0.31
go:152
-
4 DO
-
4 D’7,2
-
(1S)4f2F;,2
-
?D)4f2Ho
5/2
11/2 2
HOT/2
GO
7/-J
-
-t3P)4f4F;/, 4
-
P;,~-
2 PO 312
FOg/2
7/2 5/2
?D)
30
89,95,114,
119,120,121,1&52,172,227
0.23
2
84.48
5.68
go:152
-(3P)4f2G;,2
C3P) 3d4F g,2
87,151'
0.461
F,,2
D7/2
0.49
70
2F
-
3 4 ( P)3d D5,2
6,79,B7,B9,151,152
go:152
G7/2
F5/2
84.768
84.52
g/2
3,6,B,51,77;79,81,84:87.89,95, 114,119,151,152,172:227,236
0.14
2
84.86
84.85
512
3d2G
85.14
7/2
0.218
5/2
-(3P)4p4D;,2
4F
References
5/2
4p2F
Go g/2
3d4F5,,
712
2F
-
-?D)
108.605
85.14
*F
DO
3d2G;,,
A
3/2
(3P)3d2F5,2
D;,2-
312
110.591 108.862
2D
PO
Do
0.875
1/2
f
6,8,51,79,87,89,95,151,152
5/2-
182.856
110.732
4P
3/2-
of Tables
(P - Sequence)
Configuration
h
Data
245
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3, March
7979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables
Fe
2
Do 5/2 D$2-
3p34s' 4
80.022
3,,-(3P)4s4P so 3/2
4So
80.300
3p3'Do 5,2-
80.160
68.382
3p
67.821
3p
32
32 2
67.702
+D)
90:152,242
l/2
0.14
0.031
6,90:95,151:152,172*
0.26
0.063
6,90:95,151:152,172:242
0.38
0.095
6,84:90:95,151:152,172:2)3* 242
2
3/2-
D3/2
P~,2-(3P)4d2D3,2
D;,2-(3P~4d2F5,2 Do
3p32Po 1,2-(
67.291
3p3'Do
67.164
3p
66.960
3p
66.526
3p
32
0.03
~s’D~,~
Do
67.972
32
3/Z
p5/2
2
-
S/2
32
90:152,242
'3/Z
3/2-
F7/2
12 D)4d
D5,2
5,2-(3P)4d4D7,2
P;,2-(
12 D)4d
Sl,2
D;,2-(3P)4d2D5,2
4d:F7,2
D;,,-?D)
2
66.43
D;/2-
F5/2
3p34so 3,2-(3P)4d4P 4
65.905
32
so 3/2 12 D)4d
66.225
3p
66.047
3p34S;,2-(3P)4d4F
65.805
3p3'Do ,,,-?P)4d2P
D;,2-(
5/Z 4P
References
0.58
4
79.488
2
4
A
go:152
'3/Z 2P
f
0.38
l/2
2
2
81.651
66.298
gf
(3P)4s2P
3p32D;,2-
81.943
80.510
(P - Sequence)
Configuration
h
82.226
XII
312
D5,2
512
3/z
0.51
84:90:151,152
0.23
90:152
0.48
go:152
0.55
go:152
0.18
go:152
1.17
go:152
1.25
go:152
0.15
90*
0.65
go:152
0.91
84:90:151,152
0.63
go:152
o-5' 0.53
0.131
84:90:151:152
0.13
90:151,152
0.17
0.64
90:152
0.16
89,90:152
0.13
246
go:152
Atomic
Data and Nuclear
Data Tables.
Vol. 23, NO. 3, March
1979
K. MORI, M. OTSUKA,
Grotrian Diagrams for FeVIII-FeXXVI
and T. KATO
TABLES. Transition Data See page 233 for Explanation of Tables x111
Fe
(Si
- Sequence) IP = 361.0
x
3388.5 2580
1213.0
Configuration
gf
f
3s23p23p2-3S23P21D2 3 pl-
1 D2
A
1.128
117:202,216
6.237
113,117:202,207
3p21so
3p23p1-
eV
References
122,145,146,152,207,216
0.22
368.12
0.03
l.lzg
10,79,8~,87,89,95,117:151,
152,234 359.85 359.63
348.184
321.59 320.93
312.29 311.552 303.47
3
3 pl-
D;
3
3 pl-
";
3
3 pO-
3P23P
D;
-3s3p33P"
2
3 p2-
p;
pl-
6,8,10,51,79,86,87,89,95, 117:151,152,234:236
1.14g
6,8,10:51,86,117:151,152, 2341236
8.7g8
87,117*
3.05g
8,10,51,79,86,87,89,117~ 151,152
1.74q
8,51,86,117*
4.108
8,10,86,117*
1.17q
10:86,87,117*
5.42'
8,79,87,89,117:151,152
4:60q
6,8,10,86,87,89,95,117:152
2.93lO
10,79,86,87,89,95,117:151. 152
0.09
0.062
0.23
0.046
p;
3
3 pO-
'i
0.41
256.42
3p21D
2
-3s3p31P"
1
251.949
221.830
1.319
'T
3p21so-3s3p3lp;
228.18
0.19
3
287.2
240.713
8,117:152,234*
3 pl-
3
318.21
246.210
2.9z8
1 3
3
0.04
3
3 3
pl-
3
3 pO-
";
0.87
0.99
0.198
3.171°
6,8,10,51,77,79,86,87,89,95, 114,117:119,151,152,172:227, 234*
0.54
0.180
1.671°
6,8,10,51,77,79,86,87,89,95, 114,117:119,151,152,172:227, 234*
0.16
0.16
6.65'
6,8,10,51,77,79,86,87,89,95. 114,117:151,152,172:234*
1.691°
87,117*
3.651°
6,8,51,87,89,95,104,117: 151,152
2.15'
6,51,117:152,234
3p21D2-3P3d3P;
1.34
216.88
247
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3, March
1979
K. MORI, M. OTSUKA, and T. KATO
TABLES.
Grotrian Diagrams for FeVIII-FeXXVI
Transition
Data
See page 233 for Explanation of Tables Fe
213.781
209.927
209.634
3p23P2-3p3d
Xl11
(Si
- Sequence)
3P;
0.58
0.116
1.7010
6,8,10,51,79,87,89,95,117~ 151,152
p2-
3 ‘;
0.16
0.032
8.2gg
6,8,51,79,87,89,95,114,117~ 151,152
3 pl-
3 ';
0.56
0.27
1.71
3
10
6,8,51,79,87,89,95,117~151, 152
202.056
3 pO-
3 ‘;
208.690
204.951
203.835
203.793
201.134
200.033
197.443
0.81
0.81
1.08
3p23P2-3p3d3D; 3
3 pz-
“;
p2-
3 D;
pl-
3 Di
3
3
3
3
pl-
D;
3 pO-
3 D;
10
4.39
6,8,10:77,79,87,89,95,114, 117:151,152
5.5010
6,8,10:79,87,89,95,117~151
0.31
0.062
1.171°
6,8,51,77,79,87,95,114,117* 151,152,1723219,234*
2.34
0.688
6.571°
6,7,8,10,51,77,79,81,84,87, 89,95,108,114,117,119,148, 151,172,227,234,236
1.07
0.244
3.441°
6,8,87,89,117:151,152,172: 234
0.90
0.30
4.121°
0.80
0.26
2.77
0.15
0.15
1.10
10
10
10
1.79
204.26
6,8~51,77,79,87,89,95,114, 117,119,151,152,153,172:234* 6,8,10,51,79,87,89,95,117: 151,152,172:234' 6,8,10:77,79,87,95,117~151, 152,172:234*
6,89,95,117*
196.531
3.35
191.24
1.3x10
107.384
1.55
90*
0.17
90*
98.826 98.523
3p3d3F;-3p4p3Dl 3
-5
7.121°
6,8,10,51,79,81,84:87,89,95, 117:151,152,172,227
8.055
8,77,79,87,89,95,114,117~ 151,152
F;-
3D2
0.28
6,90*
F;-
3D3
0.41
6.90'
93.387
0.14
go*
84.275
4.85
go*
98.128
3
248
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3, March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables Fe x
x111
Configuration
3p3d3F;-3p4f3G5 3
78.77
3
78.56
3
F;-
G4 3
F;-
G3
76.717
3P21D2
-3p4slP;
75.89
3P23P2
-3p4s3p;
75.887 76.48 74.845
74.327
3 3
p1 po
-
3 P2 -
PO 1
3 'iz
3P21D2
-3p4d'F;
62.975
3P23P2
-3p4d3D;
3
3 p1 -
D;
A
References
go*
6.54
89.90’
3.68
6,90*
3.28
90*
0.56
6,84:90:95,152,220,233
0.034
6,90:151:172:220,233,242
0.03
6,151:220,233,242
0.115
0.115
6,151:220,233,242
0.44
0.088
6,84:90:95,151:152,172:220. 233,242
PO 1
p;
1-
63.191
62.694
3
f
3.05
0.20 3
3
3P
- Sequence)
gf
81.161
78.462
(Si
0.17
6,90:151:152,220,233,242
1.78
84:90:151,152',220
0.94
0.13
84:90:151:152,220
0.77
0.26
84,90:151:152,220
249
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3. March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables
XlV
Fe
(An. - Sequence) IP = 392.2
x
5303.4
Configuration
3s
2
356.60
gf
2 3p P;,2-3s
3P2P0
2
3p
3/2 D5/2
2 PO
-
2
l/2 3p 2 p;/2
289.160
274.191
288.45
2
4P
270.512
2 3p p;/2
3/21/2-
2
257.385
PO
l/2
3s3p 22
2F
241.38
22
5/2
239.20
3s3p
232.20
3s3p22P-3s3p3d2Do
220.095
2 3~ p;,2-3d
2
pl,2
3/2
D;,2
3/2
0.04
6,8,11,51,77,79,86,87,89,95, 114,148,151,152,202,234:236
0.10
0.0047
6,8,11,51,79,86,87,89,95,151, 152,172:234'
0.35
0.215
6,8,11,51,77,79,81,86,87,89, 95,114,151,152,172,227,234
0.84
79,86,87,89,151,152,11*
2
0.579
0.127
6,8,11,51,77,79,82,85,86,87, 89,95,114,119,142,148,151, 152,172:227
1.81
0.40
6,8,11,51,77,79,82,86,87,89, 95,114,119,142,148,151,152, 172:227
0.366
0.16
6,8,11,51,79,82,86,87,89,95, 142,148,151,152,172:227
0.413
0.18
6,8,11,51,79,82,86,87,8?,95, 119,142,148,151,152,172
0.174
11:
151
0.806
11:
151
11,15
'E/2,7,2
151
2
D3,2
2 P$z-
0.19
81,119,148,151,11*
2 DO
D3,2,5,2-3S3P3d
6,8,11,51,63,79,86,87,89,95, 148.151,152,234:236
0.301
2
-
0.054
3/2
'3/2
F5,2-3s3p3d
6,79,87,89,95,151,152,234*
49
2 p;/2-
0.00122
0.26
79,86,87,89,151,152,11*
p1/2
2
252.190
0.01
0.58
2
-
11,177:202,217,240
3/2
2P
p;/2-
ev References
4so
22
-3s3p
2
264.779
l/2
3p 34 0 '3/2
5/2-
274.19
s1,2
28
3$3P24P 4P
219.135
22
p;/2-
280.69
242.49
D3/2
-3s3p
A
51.07
2 p;/2-
334.178
P;,2
3/2-3s3p22D
2 353.838
2
f
D5/2
0.352
0.072
6,8,11,51,74,77,79.81,87,89, 95,114,119,142,148,151,152, 172:195,227
1.26
0.50
6,7,8,11.51,74,78,79,8l,84: 87,89,95,108,114,119,121, 142,148,151,152,172*,227, 234,236
250
Atomic
Data and
Nuclear
Data Tables,
Vol. 23, No. 3, March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables
Fe A
Configuration
211.328
2 p;/2-
XlV
(At
2 D3/2
218.21
207.40
3p4p9
3s3p
22
3s3pZ2D
312
2 3d D5/2 2 D3/2
76.152 76.022
3s3p3d4F
72.80
71.613
11.15
-
2 4~ Po1,2
-
PO
-
4P 2
-
4f2F0 2
-
3/2
FO
512
g/2 4
GO
7/2
G;1/2
4s 2s
l/2
2
71.379
3~3~ 22
70.251
3s3p
24
-
s1/2
2
D5,2
-3~3~4s
P
-3s3p4s4po
512
P;,2
3/2
69.667
4P 5/Z
-
4p;/2
69.386
4P
-
4 PO 312
69.176
4P 3/2
-
4 p:/2
67.50
65.70
59.573
3s3p
22
l/2
11,90:151,152
0.25
0.04
6,11,90:151,152
4.88
11,90:95,152
3.42
6,11,90:95,152
3.99
go:152
3.23
go:152
7.54
90f152
0.25
0.06
11,84:90:152,204,220,233,242
0.13
0.03
11,84:90:151,220,233*
0.62
90:151,220
0.24
90:151:152,220
0.55
90:95,119,151:152,204,220
0.22
90:151,152,220
0.24
90:151,152,220
-3s3p4f2FD
D
3s3p 22 D
0.035
11,15
712
F5/24F 9/2-
-
0.14
p'1,2
4
p;/2
6,?,8,11,51,74,78,79,81,84: 87,89,95,108,114,119,121,142, 148,151,152,172:208,227,234, 236
3/2
2
69.66
0.55
References
-3s3p3d2Po
4
2 3P p;,2
0.728
A
79,87,89,152
7/2-3s3p3d4Go
72.95
f
7/2
2 %/2
gf
-3s3p3d4D
2
91.009
73.08
512
2 3d D3,2
91.273
81.20
D
50
- Sequence)
3/2
2 3P po3,2
-
4f2P0
-
4d2D
6
11.15
512
5/2
0.98
0.25
251
11,52,6~,84:90:95,119,151, 152,172,174,181:182,220, 233,242
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3. March
1979
K. MORI, M. OTSUKA, and T. KATO
TABLES.
Grotrian Diagrams for FeVIII-FeXXVI
Transition
Data
See page 233 for Explanation of Tables Fe
2 3P P;,2
58.963
58
(An. -
configuration
A
58.00
XlV
3S3P22P
-
4d
2
D3/2
Sequence)
gf
f
0.55
0.25
A
P.eferences
11,52,64,84:90*95,119,151, 152,172:174,18;:182,220,233, 242
151,220
- 3S3@d2D0
3s23p2P"-3s3p4d2D
220
252
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3, March
1979
K. MORI,
M. OTSUKA,
Grotrian
and T. KATO
Diagrams
for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables
Fe
481.52
3s3p3p;
-3s3p3po
3s3plP;
- 3p 21
417.24
3s2
400.65
3s3d3Dl
323.57
321.76
3s3p3p; Pi
0.0035
3s3plp;
D2 1 D2
- 3p 21
3s3p3p;
-3P
2 3P 1
3
3 Pi
3 3
P; P;
-
P
p1
292.36
3
3P
3s3p1P;
3s2
274
3P
243.782
3P
243.782
-
- 3s3d3D
1
23
3s3p'P;
so
8,45*,51,202,206
0.11
45*,51,95,202
0.44
45*,51,86,151
0.36
45',51,79,82,87,89,152,206 51,79,82,87,89,152
0.23
45f,51,79,87,89,152 79,82,87,89,152
0.31
45*,79,87,89,152 79,87,89,152
2
90,152
2
% 0 - 3s3plp;
21
0.22
p2 3P
P;
79,86,87,152
3
3 PO 0
284.147
79,86,87,152
0
3
302.45
303.40
45*,62,63,95,115,142,152,200, 202,212,241
79,86,87,152
sO
305.00
0.00217
F‘Y
-
0.83
0.827
2.251°
6,8,17,18*,35*,45*,63,77,79, 81,87,89,95,114,119,133,142, 148,151,152,172*,212*,227, 238,241,242
- 3p3dlP;
86
P2 - 3p3d3P;
- 3s3d1D
Fleferences
45*,51,63,79,86,87,89,91,95, 151,152,202,233
F;
- 3~ 21 3
307.74
0.27
3 D3 -
ev
142
D2
D2 -
317.62
A
3
3
312.55
f
IP = 457
- 3p3d3F; 3
372.78
- Sequence)
2
?s 0 - 3s3p3p;
387.00
327.03
gf
Configuration
h
7058.6
(Mg
XV
6,51,79,86,87,152
2
2.13
6,8,45*,77,89,91,95,114,151, 202
253
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3. March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES.
Transition
Data
See page 233 for Explanation of Tables
Fe Confisuration
h
234.76
xv
3s3p3P;
233.869
sf
- 3s3d3D
3 P;
-
2 3 D3
227.70
3 P;
-
3
227.22
3 P;
-
3
D1 D2 224.745
3 P;
(Lag - Sequence)
-
3 D1
f
A
References
0.24
45*,51,151,152
1.37
6,8,45:51,79,81,86,87,95,119, 142,151,152,172,195,242
0.25
45*,51,79,81,87,151,152,172
0.75
6,7,8,45*,51,79,81,86,87,108, 151,152,172,195,236
0.34
6,45*,77,79,81,87,95,114,151, 152,172,195
73.473
3s3d1D2
- 3s4f'F;
3.51
6,45*,80,90,95,151*,172,220, 233
70.054
3s3d3D3
-3s4f3F;
5.83
6,45*,52,64,80,90*,95,151, 152,172,220,233,243
4.03
45*,52,64,90,151*,152,172, 181,220,233,242
2.72
45*,52,64,90,151,152,172,220, 233,242
7.12
90f.152
4.20
90*,152
3
69.987
'i
3
69.945
68.849
3 D2 3 D1 -
3
3P(2P)3d3F;-3p(2~)4f3~5 3
69.036
F;
3
-
G4
68.883
3p(2P)3d3F;-3p(2P)4f1F3
3.65
90*
66.96
3s3plp;
- 3s4slso
0.14
45*,220
66.238
3s3p3p;
- 3s4s3s
0.31
45*,107,151,152,172,176,220
0.19
45*,80,90,107,151*,152,172, 176,220
0.062
45*,90,107,151,152,172,176, 220
65.612
P;
-
3P;
-
‘D2
- 3s4f'F;
0.71
45'
0.91
45*,90*,95,119,151*,152,172
3
65.370
1 3Sl 3S 1
63.96
3~'
59.404
3s3plp;
- 3s(2S)4d1D2
3s3p3P; 3
- 3s4d3D
56.236 56.290
55.815 55.793
3
P;
-
P;
-
3PO 1
64,90,151*,152,183,220
2 3
52,64,80,90,151,152,183, 220
D3 3
52,64,90,151*,152,183,220
Dl 3
64,80,90,151*.152,183,220
D2
254
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3. March
1979
K. MORI,
M. OTSUKA,
Grotrian
and T. KATO
Diagrams
for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables
Fe A
xv
(Mg - Seqttence)
Confisuration 3
55.635
52.911
3s2
50.120
3s3d3D3
PO 0
18
0
64,80,90,151*,152,183,220
0.50
- 4plp;
0.422
17*,18*,45*,52,64,80,90,95, 119,139*,151*,152,172*,174, 181*,220,233
- 3s5f3F;
64,80,152 3
D2 3
50.062
References
A
D1
3
50.085
f
!lf 3
FO 3
64,152
3 D1 -
64,152
';
49.49
3s3d1D2
- 3s5f'F;
80,152
43.93
3s3d1D2
-3s6f'F;
80
43.65
3S3P3P0
- 3s5s3s1
80,152
43.39
3s3d3D3
- 3s6f3F;
80
41.903
3s3p3p;
- 3s5d3D3 3
41.663
PO1 3
41.559
107,152
3 P;
38.95
3s2
ls
15.828
3s2
18
15.624
3s2
l8
15.490
3s2
18
0
0
0
0
-
107,152
D2 3
107,152
D1
- 3ssplp;
0.115
80,152,212*
- 2p53s23d3P;
40
- 2p53s23a3D;
40
- 2p53s23dlP;
39,40,41,152,218
255
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3. March
1979
K. MORI, M. OTSUKA, and T. KATO
TABLES.
Grotrian Diagrams for FeVIII-FeXXVI
Transition
Data
See page 233 for Explanation of Tables
F, x 360.796
XVI
- Sequence)
(Na
gf
Configuration
f
2
2p63s2S
l/2
- 3P p;,2
IP = 489.264
References
A
0.125
6.50'
6,8,12*,18*,30,62,63,71*,79, 81,87,95,107,119,151,152,154', 162*,178,195,232,234~236,241
0.272
.9.13g
6,8,12',18*,30,63,71*,77,79, 87,95.107,114,119,136,151,152, 154,162*,195,227,232,234,236, 241
0.0279
2.ixg
12',51,79,81,87,107,119,152, 154*,162,172,232
0.254
1.631°
6,8,12*,51,79,81,S7,95,107, 119,152,154*,162,172,178.195, 232,242
0.294
1.561°
6,‘3,12'.51,81,87,89,95,107, 152,156,162,172
0.0340
7.651°
6,12*,90,151,152,154*,162: 17s
0.0391
6.651°
6,12',90,151,152,154*,162: 178
0.882
9.9611
6,12*,52,65,71,90,9S,l51*, 152,154*,162,172,174,178,220, 233
0.924
9.3011
6,12*,52,65,71,90,95,151*, 152,154*,162,172,174.178,220, 233
0.0661
2.16=
6,12*,36,52,65,80,90,95,lSl*, 152,154*,162*,172,174,178, 220,233,242
l.0411
6.12*,36,52,65,80,90,95,151*, lS2,154*,162*,172,174,178, 220,233,242
0.0314
6.951°
12*,65,90,151*,152,154*,162*, 181",220
0.280
4.15ll
12*,52,65,90,95,119,151*, 1S2,154*,162*,174,17Ei,lSl*, 220,233
0.300
3.4011
12*,52,65,95,119,151*,152, 154*,162',172,174,181*,220, 233
0.228
1.9711
12*,17*,18*,52,65,80,90,151*, 152,154',162,178,220,233
0.23
1.8511
12*,17*,18*,52,65,80,84,90, 119,151,152,154*,162*,174, 178,181*,220,233
1 0.796
335.410
2s
265.007
3p 2 p;/2
262.973
2p:/2
2 l/2
-
p;/2
- 3d 2D3/2 -
2
1.712
D5/2
251.063
76.796
2
2 p;/2
-
D3/2
3d 2 D3,2
-
2 4~ P;,2
1 0.414
76.502
2 D5/2
-
2 p:/2
66.368
66.263
63.719
3d 2 D5/2
- 4f 2 F;,2
2
2 D3/2
3P 2
p;,2
-
F'j/2
- 4s 2
sl,2
!
0.374
62.879
54.769
54.728
54.142
50.555
50.350
2
p;/2
3p 2p;/2
-
29
- 4d 2 D3/2 2
2 p;/2
-
pi/2
-
D3/2
-
2 4P p;,2
*1.907
D5/2
2
2
3s 2
l/2
s1/2
2S
l/2
eV
0.486
2 p;/2
I
256
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3, March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables Fe
h
XVI
Configuration
(Na
- Sequence)
gf
48.97
3d 2 D5,2
- 5p 2 P;,2
46.718
3d 2 D5,2
-
Sf 2 F;,2
46.661
2 D3/2
-
2
f
References
A
80,152,178
52,65,71,80,151,152,178~183, 213,220 52,65,71,80,151,152,178:183, 213.220
Fb2
42.50
2 3P p;,2
- 5s 2 sl,2
52,65,71,80,151,152,178:183, 213,220
1 0.074 41.91
2
p;/2
-
41.17
3d 2 D5,2
-
3d 2 D5,2
-
40.245 40.199
40.153
39.027
37.138 37.096
36.808 36.749
36.01
2
28
2 6~ P;,2
6f
2
3p 2 p;/2
-
0.63
71,107,152,178*
F;/2
1 0.58
2
3d 2 D5,2
71,80,107,152 i
- 5d 2 D5/2
2 p;/2
80.152.178
F;,2
2 D3/2
52,65,71,80,151',152,178:183, 213,220
w
-
D3/2
- 7f 2 F;,2
2 -
F&2
3s 2 sl,2
-
2 5P p;,2
23
-
2 p;/2
3~ 2 P;,2
- 6s 2 Sl,2
52,65,80,151 213,220
,152,178:183,
71,80,107,152
107,151 I
l/2
,152,178*,183,
71,80,107,152
2 D3/2
52,65,80,151 213,220
0.14
,152,220,178*
0.0695 80,107,151
,152,179,220
80,152,17L? 0.014
35.71
35.368 35.333
35.106 34.857
2
POl/2
3d 2 D5/2 2D
-
3p 2 p;/2 2 p;/2
l/2
80,152,176
1
- 8f 2F;,2 -
3/2
28
80,107,152
2
107,152,178
F;/2
52,80,107,152,178*
- 6d 2D5/2 2 D3/2
0.044
257
52,80,107,152,178*
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3. March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables Fe
x 33.04
Configuration 3p 2p;/2
32.433
32.192
-
Q2
52,80,152,178
80,107,152,178 80,107,152,178
31.041
2P0 l/2
3~ 2 P;,2
-
107,152
I
0.0316
2
3~ 2 P;,2
References 52,80,152,178
- 6~ 2 P;,2
2 s1/2
A
s1/2
2 3s Sl,2
p;/2
80,107,152,178*
- 8d 2 D5,2 -
80,107,152,178
2
80,107,152,178
D3/2
80,152
- 9d 2 D5,2
2
30.10
f
2
2 - '~3 D5/2 2 D3/2
31.242
30.33
-Sequence)
gf
2 3p p;/2 2 pi/2
32.166
(Na
- 7s 2
2T/2
32.84
32.652
XVI
2 p:/2
-
80,152
D3/2
29.93
2 3s sl,2
2 - 7P p;,2
80,178
26.67
3s
2
S1,2
2 - 8~ Pj,2
80,178
81/2
2 - 9P P;,2
80,178
27.88
2 3s
27.762
2 3d D5,2
- 9f
17.491
3s 2 %/2
- 2p 5 3s 22p.
17.206
2S
15.558
2 3s s1/2
80
-
2S
l/2
2 38
14.20
3s 2 81/2
sl/2
2S
2
l/2
39,40,95,105,151,152,169,181, 204,229
p:/2
- 2p53s3d2Po -
40,41,190,220
l/2
40,220
p;/2
- 2p53s3d2Da
40,41,220
- 28383~
2 P;,2
40,41
-
2
l/2
3S26
40,80,95,105,151,152,169,181, 190,204,220,229
l/2
2
15.413
12.980
F;,2
l/2
15.288
14.05
2
40
p;/2
- 2p53s4s2P0
41
258
Atomic
Data and Nuclear
Data Tables.
Vol. 23. NO. 3. March
1979
Grotrian Diagrams for FeVIII-FeXXVI
K. MORI, M. OTSUKA, and T. KATO
TABLES.
Transition
Data
See page 233 for Explanation of Tables
Fe
110.00
2s2sp53d1Pl-
XVII
(Ne
- Sequence)
2s2p63d1D;
IP = 1266
21°
151,169*
31°
151,169*
95.90
2s22p53p:P
- 2s2p63p3Po
93.00
2s22p53s1P
- 2s2p63s1So
8.31°
151,169*
88.70
2s22p53p1D
- 2s2p63p1Po
4.11°
151,169'
0.040
0.040
17.089
eV
31,40,42,76,137,138,149,151, 169,170,190,193,194,204,220, 229
17.041
0,117
61
16.769
2P
15.449
2p6 %0
15.013
2P
13.888
2p6 ls 0
61
61
0.112
16,31,34*,40,42,76*,95,119, 137,138,149,151',152,169*, 170~,181",190,193,194*,204, 220,224,229
14,16,34*,39,40,76*,95,119; 137,138,149,151*,152,169*, 170,181*,190,193,194*,204, 220,224,229
so
so
- 3d3P;2[+o
0.015
0.010
1.411
14,16,31,34',39,40,42,76*, 95,119,137,138,151,152,169*, 170,181*,190,194*,204,224,228
- 3d1P;2[+
2.58
2.22
1.512
14,16,17*,31,34,39,56,76,95, 119,137,138,151,152,169*,170, 181*,190,193,194*,204,206, 224,227,229
- 2s2p63p3P;
0.041
76,95,137,138,151,152,169*, 170,181*,190,193,194*,204, 218,220,224,229
- 2s2p63p1P;
0.37
13.824
2P
12.681
2P 61
so - 4s 3 Pi'2 3
$0 1
12.509
2P 61
so
$10
so
14,16,17*,18*,34*,39,40,56,
- 4SlP&
0.035
259
0.21
14,16,17*,1I3*,34*,39,40,56, 76,95,137,138,151,152,169*, 170,181*,190,193,194*,201, 204,218,220,224,229
0.024
16,17,40,137,138,152,181', 190.194*,218,220
0.04
16,32,40,41,137,138,151*, 152,181,190,194*,218,220
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3. March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES.
Transition
See page 233 for Explanation
XVII
Pe
A
(Ne
Configuration
Data of Tables
- Sequence)
gf
f
References
A
12.32
2p6
so
- 4d3P;2[+
12.263
2p6
Go
- 4d
w
2p6
Go
- 3d3D;2[$lo
0.66
0.66
12.121
2/
'So
- 4d$;2[$1e
0.70
0.41
11.440
2p6
180
- 5s 3 P;(p 31 3"
40,137
11.419
2p6
so
- 5*1p;+,
40,41,137
11.251
2p6
Go
- 5d3D;2[~l"
0.14
137,152,190,194*,218
11.130
2p6
so
- 5d1P;'[;10
0.13
16,40.41,56,137,152,190.194*, 218
10.771
2p6
Go
- 6d3D;2[;10
10.660
2p6
180
- 66 1 Pl *2 y 3
.259
3 .2 D1
3
[r]”
0.09
16,40,41,56,137,138,152,190, 194*,21a,22s
0.31
16,17*,18*,39,40,56,76*,95, 106,137,138,152,181',190,194*, 218,224,229
6.312
14,39,137,151,152,169*,181, 190,204,206,220
16,17*,18',31,39,40,76*,137, 138,151*,152,181*,190,194*, 204,220,224,229
$0
16,137,152,190,194*,218
0.06
260
137,152,190,194*,218
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3, March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables Fe Configuration
A 974.8
103.96
2
2s
2P.
l/2 2
16.073
2
15.979
2
16.003
2p5
p;/2
-
2 p;/2
-
4P 4P
p;/2
2P
52
2P
-
2P
2P
-
52
0.01
14,33,34*,37,39,40,81,95,110, 152,204,218,220,229
33,40,106,110.204.220,229 33,40,42,106,110,204,220.229
w 312
l/2
2
0.020
0.02
14,33,34*,37.39,40,81,95,106, 110,152,190,204.218,220.229
0.117
0.01
14,33,34",40,106.110,152,204. 220,229
D5/2
52
D3/2
1
s13s
2
3/2-
0.02
14,33,34:39,40,41,152,204, 220
33,40,42,110,204,220,229
sl,2
3P)3d
33,39,40,110,152.204,220.229
4 D3/2 4
0.26
33,34*,39,40.76,152.204,220
0.05
33,34',37,39,40.76,152,204, 218,220
0.26
0.26
33,36,40,76,106,110.204,220 229
0.74
0.74
14,33,34*,40,76,106,204,220
D3/2
P;,2-(3P)3d4P3,2
p;/2-
14,33,34*,37,39,40,41.81,95. 106,110,119,152,190.204,218, 220,229
%/2
PO 3/2-
2
0.03
2
PO
zpo l/2-( 2
0.13
2
P;,2-( 2
2P
0.01
33,37,39,40,41,42,110.152, 204,220,.229
p;/2-
14.783
14,33,40,152,204,218.220
P~,,-Al)3s2D3,,
2
5
33,37,39,40,110,152,190,194*, 204,218,220,229
'3/Z
p;/2-
2P
0.006
5/2
2 'j3'
2
2P
33,37,39,40.110.152.204,220
3/2
l/2 4P 3/2
3
p;/2
33,37,39,40.110,152.204,220, 229
4P
2
15.298
14.63
3 4 ( P)3S Pl,2
3/2 -
15.567
14.772
-
l/2-(
15.623
15.012
6,14,18,52,57.75,88,95,99, 102,109,147,151,152,158,172
-
2 PO
15.491
sl/2
p;/2
15.826
15.869
58,112,158,207
l/2
-
-
2
References
6,14,18,52,57,75,88,95.99, 102,109,147.151.152.158,172
p;/2
16.024
ev
s1/2
2Po
15.764
A
2 pz/2
2p5
f
IP = 1358
- 2s2p 62
2
16.087
16.087
-2s 2 2p 52p.
p;/2
2P 52 '"Y2
(F - Sequence)
gf
52
2p
93.94
16.109
XVIII
4P
l/2
261
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3, March
iS7S
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables Fe
Configuration
A
2
14.581
-
2 PO
3/2
-
p;/2
2P
52
PO
-
p;/2
-
l/2
2
14.549
2p5
4P
-
P;,2-(3P)3d2P 2
14.703
p1/2
4P
2
14.485
14.467
PO
4
3/2
14.551
14.770
XVIII
3/2
(F
-
Sequence)
gf
f
A
References
0;95
0.24
33:40,76,106,110,204,220,229
LO5
0.14
14,33,34*,40,76,106.110~204~ 220,229 33,40,76,106,110,204,220.229
512
14,37,39,40,41,76,152,204,220
l/2 2P 2P
33,37,39,40,41,76,152,204.220
312
37,39,40,41,76,152,194,204,220
l/2
2P;,2-(1D)3d2sl,2
0.0135
14,33*,37,39,40.76,110,119,
0.006
152,194*,204,220,229 2
14.255
14.419
2p5
2
pl/2
2p5
2P
2P
-
2P* 3,2-(3P)3d2D
5 2po l,,-?D,3d2D 2
2
2P
P'
242
5 zpo 1/22
13.954
13.919
2P
13.442
2p5
13.425
2p
14,33,34*,40,41.76~110~204~ 220,229
0.123
0.031
33,37,40,41,76.152,194*,204, 218,220
3/2
0.0391
0.014
33,37,40,41,76,152,194*~204r 218,220
5/2
33,37,39,40,41,76,81,95,110, 194,204,218,220,229
3/2
33,40,41,76,81,95,110,152, 204,220,229
D5/2
14,33,37,40,41,76,81,110, 152,204,218,220,229
D3/2
14,33,37,39,40,41,76,110, 152,204,218,220,229
('9
3d2D3,2
33,37,40,41.76.110,152~204. 218,220,229
P" 312
-
'D
33,37,40,41,76,110,152~190~ 204,218,220,229
p$2
-
512
2
5 zpo
2Po
l/2 -2s2p
33,39,40,41,76,152,204,220
D3/2
3 3/Z-(
52
0.21
2
-
2
13.934
0.204
2 "S/2-
14.150
14,33*,37,39,40.76.110,119, 152,204,220,229
0.000660
'3/2 2
PO 312 p;/2
%/2
2 D)3d
2
14.20
14.121
1 l/2-(
14.214
14.361
-
zp.
14.293
14.373
PO 3/2
2
2 'j3'
33
'l/2
5
2 3P p3,2
14,40,56.190.220
PO3,*-(1P)3P291,2
33
262
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3. March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables XVIII
Fe x
Configuration 52
13.40
2P
p;/2
gf
-2~3~
5 zp.
2P
12.2
2P
11.730
2P
5 zp. 3,2-(1s)4s
11.516
2P
5 2po 3,2-(1D)4d2D
11.51
2P
11.021
2P
2P
52
52
2 D3/2
14,40.190,220
33.40.56.220
l/2
21,151,220,239
(1D)4s2S
2
152,190,218,220
pl,2
56,151,152,218,220
W
40,41,56,151,152,190,21S
P;,2-(1D)4d2P3,2
5 2po
1 3/2-(
52
References
A
14,40,190,220
3/2
PO -
f
2 3~ D5,2
-2s2p53p2S
13.296
1.9267
5
2 p:/2-
13.36
(F - Sequence)
2 S)4d
151,190,218,220
'5/2
111.118.155
PO - lS22S2P6
263
Atomic
Data and Nuclear
Data Tables,
Vol. ‘23, No. 3. March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES.
Transition
Data
See page 233 for Explanation of Tables
Fe x 7080
XVX
Configuration 2s
2
2p
43
1118.1
2p
43
3
3
3 -
p1
-
p2
-
57,60*,75,88,99,102.109,147, 151*,152,156,
PO 1
0.083
57,60*,75,88,99,102,109,147, 151*,152,156
0.32
57,60*,75,88,99,102.109,147, 151*,152,156,
0.099
57,60*,75,88,99,102,109,147, 151*,152,156
0.085
57,60*,75,88,99,102,109,147. 151*,152,156,157
0.32
60*,75,94,98,99
0.056
57,60*,75,99,109,147,156, 157
3 'tl 3 p;
61
115.42
2S2P 5 lp. 1
106.125
2p 41
so
91.02
2p 41
D2 - 2S2p 5 lp. 1
15.042
2P
15.00
2p4
14.927
2~
14.72
2P
14.703
2P
14.549
2P
13.993
2p4
13.763
2P
-
(2P.)3slP;
3P2
-
(4w3S3s;
D2 -
('D")3s1D;
41
43
so
- 2s2p 5 lp. 1
so
57,75,88,99,102,10?,147.151*, 152,156 0.067
p;
3
41
58,112,158,207
PO 1
3 p2
3
101.56
112
Pl
2s2p 5 3p. 2 3
57,75,88,99,109,112,147,152, 156,157
39,40,42,152,220
40,42,96,151*,190,218,220
0.023
40.42.220
P,-('D")3S3D;
41
0.038
40,42,85,96,151*,220
39,40.42,152,220
D2-(2Po)3~1P;
43
Po-(2P')3s3P;
3Pl-(4S")3d3D; 3
p2-
eV References
p1
111.70
106.33
A
3
2P 43 Pl'-
108.37
IP = 1456 f
gf
PO-2s 2
p2-
120.00
(0 - Sequence)
0.315
0.023
39,40,42,151',152,220
1.38
0.46
14,39,40,101,152,220,96*
1.18
0.24
14,39,40,56,96*,101,151, 152.201.220
264
Atomic
Data and Nuclear
DataTables.
Vol. 23, No. 3, March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables
Fe ,I 13.829
2P
13.829
2p 4 3P 0 -('D)3d3Do
13.705
"S
3
3 p2-
41
"i
3 p2-
'i
Pl-c2D,3d3P; 3
3 p;
p2-
13.518
2P
13.517
2P
13.494
2P 4 1D2-(2P)3dlD;
13.467
2P
P,-('P)3d3D; 3
3 po
-
13.464
2P 4 3P2-(2D)3d3S;
12.98
2p4
12.93
2P
12.915
2P
'D2
41
40,96:101,152,218,220
1.11
0.37
40,56,96*,151,201,220
1.23
0.41
39,40,95,96,101,151*,152, 181,220,
2.14
0.25
14,39,40,95,96*,101,151*,152, 181,190,192',201,202,220
40,41,220
D2-(2P)3dlF;
43
41
14,39,40,85.96*.101,151,152, 192*,201,220
D - 3d'P"
41
13.442
0.74
1.23
'i 3
pl-
41
3.71
14,40,96,192,201,220 3
3
13.503
14,39,40,96*,101,151,152,192*r 201,220
40,96*,151,192,220
2P 4 3Pl-(2P)3d3P;
43
0.46
2.22
13.644
2P
1.27
So-(2P)3d1F';
2P
13.547
14,40,101,220
40,96*,101,151,192*,220
13.695
13.428
40,101,192*,220
1.07
2P
13.467
References
D2-t2D)3dlF;
13.733
41
A
1 3
pl-
13.518
f
0.53
D2-(2D)3dlD;
3
(0 - Sequence) gf
Configuration 41
XIX
"i
5.44
40,96*,101,151,192*,220
1.50
40,96*,151,220
0.17
40,85,95,96,101,151*,181,190, 192:201,220
1.39
1.39
40,88,96*,151',181,192*,201, 220
1.22
40,152,218
- 2s2p43p1F;
D - 2s2p43p1Do
40
D - 2s2p43p1Po
40
265
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3, March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-
FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables Fe
XIX
Configuration
.I
(0 - Sequence) f
gf
References
A
12.726
2p4
l8()
12.599
2P4
3P - 2~2~~3~
12.494
2P
11.16
2P4
3P - 4s3so
41.56.190
11.026
2P 4 3P - 4s31Y
40,41,190
10.81
2P 4 3P - 4d3Po
40,41,151,190,220
1.918
43
K
- 2s2p43p1Po
40
3Po
40
P - 2~2~~3~~8'
40
85.111.155.167
a
266
Atomic
Data and
Nuclear
Data Tables.
Vol. 23, No. 3. March
1979
Grotrian Diagrams for FeVIII-FeXXVI
K. MORI, M. OTSUKA, and T. KATO
TABLES.
Transition
Data
See page 233 for Explanation of Tables Fe Configuration
h
4 162.80
(N - Sequence)
XX
2s2p
- 2P
References 75,99
Pi/2
2
2
'3/2-
75.99.157
p:/2 2
138.46
2P 1/22 '3/2-
121.99
136.34
2s
2
32
2p
p;/2
132.85
42
131.76
44 4So 312 - 2s2p
2P
32
2P
D5/2 2
3/2 -
D3/2
Do
l/2 2D
-2p5
2Po 2
'S/22
2 D3/2-
p;/2-
98.37
2 PO 3/22 p;/2-
92.63
2P
3 2Do
J/2
3/2
PO
0.33
57,60*,75,88,94,98,99,147, 152,157,236
3/2
0.13
60*,75,99,112,147,152,157
0.27
60*,75,99,157
0.12
60*,75,157
PO
60,99,157
l/2
- 2s2p 4 2P
2
101.83
57,60*,75,88,94,98,99,112, 147,152,157.236
75,99,147,152,157
s1/2
2
2P 32 *;/2
0.36
sl/2 2
-
512
157
42
2p;,,-zs2p PO
75.99
l/2
D3/2
2
98.07
75,99,157
2 DO5/2-
2s2p4
17*,18*,57,75,99,102,147,151*, 157
a2
D;,2-2~2p-
2
I
li",l8',57,75,94,98.99,102, 147,151*,157
0.48
'3/2
2
2p3
17*,18*,57,75,94,98,99,102. 147,151*,152,157
52 28 167-2P 2 s1/2-
109.65
94.62
pl/2
4 2s2p
106.97
108.81
4 so3/2 -
110.63
111.51
'3/2
4
113.34
114.70
4 so312 -
115.35
115.39
'5/2
4
118.66
57,75,99,157
D3/2
3
121.83
57,75,94,98,99,157
D5/2 2
p;1/2-
2P
75,99,157
p;/2
2 127.86
75,98,157
pi/2 2
-2s2p
312
57,60*,75,99,147,157
0.12
2P
3/2
57,75,99,147,157
2P
l/2
57,75,99,147,157
2
75,99,147,157
p1/2
- 2s2p
eV
A
52
2Pl/2
140.42
f
gf
IP - 1582
42
112,147,157
s1/2
267
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3, March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES.
Transition
Data
See page 233 for Explanation of Tables
Fe
Configuration
x
93.80
2P 3 2D0
5/2
-2s2p
2s2p 44
13.72
2P 3 490
3 2P
13.084
2P
3/2
32
13.og4
2p3
13.084
2P 3 2po 3,2-‘1D’
13.084
2P
13.052
2P
12.990
2p
12.915
2p3
12.895
2P
32
12.815
-
?D)
3/2
57,75,88,94,98,99,112,147,152, 157,236
l/2
57,75,88,94,96.98.99,152,157. 236
0.042
5/2
42,96,151*,181,201,220
40,220
13P)3d2F
?D)
Do3,2-
7/-J
3d2F5,2
t3P) 3d2D5,2
D;,2-
5/2
(ID)
3d2D
5/2
2 D;/2
-
D3/2
2
2 D;/2
-
'Do 5,2-(1D)
D5/2
3d2F
7/2
3 4so 3/2-( 4 S'
40,41,96,101,152,220
40,220
3d2P3,2
zpo 3,2-
32
40,41,101,220
3d2S
2
2P
References
220
2Do ,,,-h3d2D
2p3
A
t3P) 3d4Pl,,
Dk2-
32
12.833
12.842
- 3S4P
';,2-
2Po
12.840
f
3 2 ZPO3/2-( P)3d '3/2 2 2 p;/2 '3/2
2P
3
SeqtEIlCC!)
P-2s2p33s4Fo
13.351
12.882
4 2P
D;/2-
16.60
(N -
gf
2
83.24
13.467
xx
3/2-
3P)3d
4 '5/Z 4P
3/2
1.60
40,41,96*.151.220
1.72
23*,40,41,85,96*,101,151,190, 220
2.50
23*,40,41,96*,151,220
2.71
23*,40,88,96*.101,220
1.93
40,96*,151,220
1.52
23*,40,96*,101,151,190,220
1.13
23*,40,96*,151.220
1.31
23*,40,96*,151.220
5.31
23',40,85,88,96*,101,151,190, 220
1.76
17*,18*,23*,40,88,95,96*,101, 151*,152,181,190.218,220,231
1.97
17*,18*,23*,39.40,88,95,96*, 151',152,181,190,220,236
268
Atomic
Data and
Nuclear
Data Tables,
Vol. 23. No. 3. March
1979
K. MORI, M. OTSUKA,
and T. KATO
TABLES.
Grotrian Diagrams for FeVIII-FeXXVI
Transition
Data
See page233 for Explanation of Tables
Fe 1
Confisuration
2P3 P;,2-(1S)3d2D
12.73
2P3 T/2
4
4
12.145
2 2
2
a3
2
12.27
2
12.233
2
a3
2
10.35
2
10.22
9.70
1.906
1.40
References 23*,40,96*,151,220
40,220
SO 3/2-
4P
40,220
T/2-
4P
2
12.076
10.12
3
A
4 3P pl,2
2P3 D’
12.17
10.50
3/2
f
-2s2p
312
4
11.994
12.454
(N - Sequence) qf
2
12.795
12.521
XX
-2s2p33p2P
40,220
Do -
2P
40,220
Do
2P
40,220
-
PO -2s2p33P2D
40,220 2
PO -
2
PO -
D
40,220
D
40,220
PO - 4d2D 2
POP"
-
40,220
2D
40,220
- 4S4P
2p3
- 4d4P
4so
40,220 D
2P 34 s-
K
40,220
512
40
0.160
151*,220
53,85,111,167
a
269
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3. March
1979
K. MORI, M. OTSUKA, and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES.
Transition
Data
See page 233 for Explanation of Tables
2s
2
23p
Pp
2
2 3p
(C - Sequence)
1 - 2s
2p
23
-
145.67
P2 - 2szp 3 3Do2 3 p2
-
p1
-
"i
3
142.17
3P
3
31
"i
Do2 -
2S2P
125.30
2s2p 3 lpo
123.76
2P
2
3
D;
0-
144.82
2p
121.16
41
-2P
1
115.16
3 p2
-
p1
-
108.45
13*,75,88,99,151*,213
0.16
9.16'
13*,75,88,99,102*,147,~~~*, 157,213
0.10
1.121°
13*,75,88,99,102*,151*,157. 213
3.291°
13',157
7.631'
13*,157
1-
21
PO 1
3P.
-
D2
-2S2p
pi
31
3 lpo 2p 2 1s o - 2S2P 1
102.21
2p
P2 - 2szp 3
D;
3 3S.a 3
p1
-
po
-
D2
-
3
3
3
lso
si
2s2p
- 2~3s
3 lpo 1
1
10
13*,75,88,99,102*.112.147, 151*,152,157,202,213
2.241°
13*,151*,152,157,213
1.591°
13*,102*,147,151*,157,213
4.8Z8
13*,151*,152,157,213
0.02
4.4gg
13*,102*,151*,157,213
0.60
4.50
0.11
1.731°
13*,102*,151,157
0.30
6.121°
13*,75,88,99,102*,112,147, 151*,152,157,202
0.16
2.46
0.03
8.92’
0.29
6.65
0.12
‘;
3
1-12.47
23
2.03
3 -
13*,147,151*,157,213
2.70'
p; 3
2P
2p2
7.368
0.23
';
113.31
13.464
13*,75,88,99,102*,151*,152, 157,213
3
p1
21
6.08g
so
3
Zp
0.15
2s2p 3 3po 1
P2-
3P
117.89
98.37
13*,75,88,99,151*,157,213
D2
3
118.70
91.28
46
41
3
97.87
0.432
"; 3
p1
128.67
58,102,112,158,206,207
3
3
142.10
58,112
2
p1
3
eV References
A
3 po
2p
IP = 1689
f
9f
3
1354.1
151.44
XXI
Configuration
h
2304
Fe
10
13*,60*,75,88,99,102*,112, 151,152,157,202
10
13*,75,88,99,102*,112~147~ 151*,157,202 13*,75,88,99,102*,112,151*, 157,202
10
13*,75,88,99,102*,112,151*, 157,202
lP0 1
39,40,152.190,220
270
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3. March
1979
K. MORI,
M. OTSUKA,
Grotrian
and T. KATO
Diagrams
for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables Fe
XXI
Configuration
h 2P 21
13.052
2P
13.012
2P
12.815
2P2
12.808
2P
12.681
2s2p 33 D;-2s2p2(4P)3d3F4
12.591
2P 2 ls o -2p3dlP;
12.5
2P
12.469
2P
12.438
2P
12.401
2p2
23
40.190.220
-2p3s3Po
P2
- 2p3s3P;
p1
- 2p3slP;
40,151,152,218,220
-2p3d3D;
40.56.220
21
P2 - 2p3d3F;
1.15
0.23
22*,40,96*,151,220
D2 - 2p3dlP;
0.06
- 2p3d3D; 3 "if 3
po
2P
11.956
2p2
23
22*,40,41,96*,151,220
22*,40,220
3
12.273
40,101,220
0.620
3P2
21
40,56,152,206,220
1.40
1-
2P
40,96.151*,152.190.213,218, 220
1.24
3P
12.399
0.050
- 2p3d1D;
Pl
23
12.262
References
so - 2p3d3P;
23
12.397
A
D2
'so
21
f
gf
13.25
23
(C - Sequence)
-
Di
2.94
0.588
22*,39,40,56,85,95,96*,101, 151*,181,190,220
1.44
0.48
22*,39,40,95,96*,151*,152, 181,220
1.28
1.28
22*,40,56,95,96*,151*,181, 220
D2 -2p3d'P;
4.72
P2 - 2p3d3P;
1.08
'D
22',39,40,152,220
22*,39,40,96",101,123,151r 152,220
0.216
40,56.85,95,96*,101,151*, 181,190,220
- 2s2p23plP0
40,220
11.772
1 D-
1
11.637
1D-
1
PO
40,220
PO
40,220
271
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3, March
1979
K. MORI, M. OTSUKA, and T. KATO
TABLES.
Grotrian Diagrams for FeVIII-FeXXVI
Transition
Data
See page 233 for Explanation of Tables
Fe A 11.865
XXI
Configuration 2p2
(C - Sequence) f
gf
A
References
3P - 2s2p23p3Po 3
11.698
40,151*,220 3
P-
0.060 PO
40,151*,220
40,151*,220
11.742
2*2
3P
- 2s2p23p3Do
11.592
2P 2 3P
- 2s2p23p3So
40,220
9.94
2p2
- 2p4dlPO
40
9.81
2P
9.723
2p2
'D2
- 2p4s'P;
40,56
9.450
2p2
3P.
- 2p4d3D;
40,56,151,220
lso
21
0.239
so - 2~4~1~;
40.56
1.896
53,85,111.167
212
Atomic
Data and Nuclear
Data Tables,
Vol. 23. NO. 3. March
1979
K. MORI, M. OTSUKA,
Grotrian Diagrams for FeVIII-FeXXVI
and T. KATO
TABLES. Transition Data See page 233for Explanation of Tables
Fe Configuration
A 2
2s
557.5
3s
349.3
2P2P0
-
PO
-
p;/2
-
2P2P0
3/z
2
2s2p
156.84
2s2p
8.506
206,211*
4P
5.5g6
206,211*
1.517
51,206,211*
1.~36~
51,206,211*
1.3Z6
206,211*
1.9ag
56,75,88,99,147,151*,157,211*, 213
0.14
3.97g
56,75,88,99,i02*,147,151*,157, 211*,213
0.13
3.75g
56,75,88,99,102*,147,151*, 157,211*,213
4P
- 2szfi2
p;/2
-
2 =5/Z
=3/Z
22 p3/2-2p
22
3 zp.
3 ZDO 2 =5/Z-
sl,2-2P3
%/2
2s2p
p;/2
2s
-
2s2p 2 4P
5/z-2p3
49
4
125.71
7.568
117.52
pl/22
p;/2
l/2
Pi/Z 2
-
p;/2
-
2
4.10
10
'3/Z
75,88,99,102*,147,151*,152, 157,211*,213
157
312
22 - 2s2p
PO 3/Z
0.18
75,88,99,102*,147,151*,152, 157,211*,213
4So 312 4 ?/2
'3/Z4
2
0.001
0.017
2
2p
157
2P;,2
22
pG2 -
157
D;/2
2
117.12
157
D;/2 2
=3/Z-
22
157
3/Z
D5/2-2p
144.82
157
312
2
2p
3/Z
2D3,2
2
2s2p
312
2
149.90
102.20
4Pl,2
2
157.36
32*,151*
p1/2
-
references
A
0.335
'5/Z
Pa 312
ev
56,58,102,112,158
4
pb2
135.73
114.39
-
3/z
f
4
2
156.20
116.24
- zap2
312
IP = 1799
P;,2
p;/2,1/2
2
217.30
134.65
3p
p;/2
247.19
2
2 s1/2-
2
253.17
135.93
zp
2
292.46
139.82
2
2
(B - Sequence) 9f
2 2p P;,2-2s
845.1
161.65
XXII
157
157
0.13
1.49
0.51
2.65
10 10
1
2
75,99,102*,151*,157.211* 56,59,60,75,88,99,102*,147, 151*,157,211* 56,75,88,99,102*.147,151*157, 2114
p1/2
273
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3. March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables Fe
x
2 *i/2
4P2P"
9.91
32*,151
3.23
32',151
0.737
32*,151
37.48
3d2D
-
35.88
3p2Po
- 4d2D
34.40
3s2s
13.90
2s2p
12.38
2p2*o
D -2s2p3s2Po
- 3s
2s2p 2 4P
-
512
22 D5/2
101,220
3/2
12 P)3d
2S2p(
32,101,151,220
D;,2
101,220
(3P)3d2F;,2
-292~
- 3d2D -
*;/2
-
4P
--2p(
3/2
‘D
2.35
S/2
2
2
512
101,220
%/2
P”
3/2
2s2p2
101,220
2
2P2P0
11.727
220
101,220
D3/2-
11.843
32*,56,96,151*,181,190,211*,
8.53ll
"$2
2D5,2-
2
0.019
4
2
11.90
32*,56,96,151*,181,190,211*,
-2s2p(3Pud40;,2
5/2-
P)3d
0.66
1.32
D3/2
3.
,151,220
220
0.116
%/2
12
2S2p(3P)3d2D;,2
4P
12.12
1.63
I
%/2 2
12.230
2s2p
32
2
3/2 *;/2
12.12
3/2
- 4P2P"
2
2s2p2
211*
4f2F0
-
2s2p2%5,2-
56,59,75,88,99,1O2',l5l*~l57,
32*,1X
3p2Po
12.120
l.391°
0.270
37.66
12.259
References
4s2s
-
11.89
I
A
32+,151
3d2D
12.22
f
0.160
38.85
22
0.03
'3/Z
-
l/2
(8 - SeqUenCe) gf
Configuration 2
100.77
11.862
XXII
4
3.0412
18,32*,151,190,211*,220
1.8312
18,25*,32,56,85,95,96,101, 151*,211*,220
1.5913
18,25,32,56,85,95,96,101,151, 190,202,211,220
25,101
P;,2
274
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3. March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables Fe XXII
x 11.730
11.65
Configuration 2s2p
22
2
PO
2s2p
11.440
2p 2Po
2s2p
11.325
2s2p
2p
9.08
9.05
2~
8.1
1.886
PO
40,101,220
%/2
40,101,220
2
Q2
101
D5,2
101
-2s2p3p2S;,,
40
-2s2p3p2Po
151
2 - 4s
6.42=
%2 2
3.32
sl/2
- 4d
2
0.43
D5,2
2
2
40,101,220
D3/2
22
Q2
P)3p
-
%/2
p;/2
2P
101
2
22
2PQ 312 2 PO 1/2-
3
-2S2P(
312
2
8.97
F;,2
-2s2p3p2Do
%/2
2
References
pl/2
l/2
11.377
A
2
-
22
11.524
11.420
f
-2~Zp('P)3p~P~,~
3/2 l/2
2
Sequence)
gf 12 P)3d
-2sZp(
D3/2
2P2P.
11.458
9.16
(B -
-
0.24
D3/2
- 5d
(Ka)2p2Po-ls2s22p2
2
0.120
16,211* 11
16,211*
5.9312
25*,151*,1S1,211*
5.1112
25*,151*,181,190,211'
D3,2
56
2P,2D
0.590
0.59
275
18*,53,55,85,111,167,1S1,213
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3, March
1979
K. MORI, M. OTSUKA, and T. KATO
TABLES.
Grotrian Diagrams for FeVIII-FeXXVI
Transition
Data
See page 233 for Explanation of Tables
Fe XXIII configuration
h
1093
2s2p3p;
263.76
2s2
180.07
2szp3p;
2s
A 58,112
2
51,112,151,152,206,237,238
23
p1
75,88,99
3 pO
75,88,99
3P;
-
3 p2
75,88,99
3
P;
-
P;
-
3P
3 PO 1
3P
21
ev
References
-
3
144.82
f
IP = 1950
- 2s2p3p;
- 2p
3
147.59
Sequence)
3 P;
166.77 154.35
0
-
gf
- 2s2p3po
l8
173.88
132.83
(Be
p1
75,88,99 75,88,99
1
75,88,99
2
so - 2szplp;
0.170
0.170
1.691'
17*,18*,32*,58,75,88,99,102*, 112,125,133,147,151*,152,200, 237,238
36.12
2s3dlD2
- 2s4p'P;
0.0765
1.3011
32*.151*
35.44
2s3d1D2
- 2s4f1F;
5.07
3.8512
32*,151*
35.38
2s3d3D3
- 2s4p3P;
0.203
1.2011
32',151*
2s3p1P;
- 2s4s'S
0.115
6.9811
32*,151*
35.05
2s3p3P;
- 2~4~~81
0.385
6.9811
32*,151*
34.64
2s3d3D3
- 2s4f3F;
3.8512
32*,151*
33.95
2s3plP;
- 2s4d1D2
1.67
1.9312
32*,151*
2s3p3P;
- 2s4d3D
5.16
1.9912
32*,151*
32.57
2s3s1So
- 2s4p'P;
0.294
6.1611
32*,151*
32.55
2s3s3Sl
- 2s4p3P;
1.17
8.1811
32*,151*
12.24
2s2plp;
- 2s3s1So
0.302
9.20=
32*,56,151*,190,220
35.15
33.88
0
14.8
3
276
Atomic
Data and Nuclear
Data Tables,
Vol. 23, No. 3. March
1979
K. MORI, M. OTSUKA,
Grotrian Diagrams for FeVIII-FeXXVI
and T. KATO
TABLES.
Transition
Data
See page 233 for Explanation
Fe XXIII h
0s
Configuration
11.80
2s2
l8
11.79
2szp3p;
- 2s3s3Sl
11.730
2s2plP;
- 2s3dlD
11.571
2P
11.521
2P
11.45
2s2p3P;
21
0
D2
23
2
0.175
3.6312
32*,151*,190,220
1.94
1.5413
25*,32*,101,151*,181,220
-2p3d'F;
101
3.19
-
3 3
25*,101
6.09
25*,31,32,85,95,96,101,151*, 181.190.220
1.69
2s2
3s 1 - 2s3p3P;
11.167
2s2
ls 0 - 2s3p3P;
0.21
11.01
2s2
ls 0 - 2s3p'P;
0.735
32,220
2s2p3P;
- 2p3p3D
3
2sZplP;
- 2~4~1s
0
8.858
2szplP;
8.702
8.628
25*,32,40,56,96,206,220
17*,18*,25*,32*,39,40,56,95, 96,102,151,152,181,190,220
6.0912
25*,32,101,220
0.651
0.0193
1.6112
32*,56,151*,190
- 2s4d1D2
0.371
6.30812
25*,32*,151*,190
2szp3P;
- 2~4~~61
0.0374
1.09812
32*,151,190
2s2p3P;
- 2s4d3D
1.12
6.6912
25*,32*,151*,190
8.319
2s
8.307
2s2
1.872
25*,31,32*,85,95,96,101, 151*,181,190,220
2.2913
11.250
8.938
References
A
17*,18*,32,151*,190,220
D2
10.926
f
- 2s3dlD;
- 2s3d3D
3 Pi
- Sequence)
gf
P2 -2p3d3D;
11.360
of Tables
21
so
2
- 2s4p3P;
1s 0 - 2s4plP;
(Ku) Is%%’
’ So-1s2s22p1~;
56,152,229
0.186
0.780
25*,32*,54*,55,56,151,152, 229
5.7912
0.78
277
17*,18*,53,55,85,111,127, 130,167,179,181,202,213
Atomic
Data and Nuclear
Data Tables.
Vol. 23. No. 3, March
1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
Diagrams
for FeVIII-FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables
Fe XXIV Configuration
x
255.29
(Li
2
-
f
gf 2
2s s1/2
- 2P p;,2
IF = 2024
Sl3qWSIlCe)
1
References
A
0.0176
1.74g
17*,18',32*,51,75,88,99,151, 152,200,202,206,232,236,237, 238
0.047
4.15g
17',18*,32*,51,75,88,99,133, 151,152,200,202,206,232,236, 237
0 .105
2 192.14
2S l/2
32.13
2 @ p;/2
32.72
3a2D
32.52
2 3a %~/2,3/2-~f
32.10
3p2p3,2
31.22
3s 2 s1/2
2 - 4p p;/2,1/2
11.38
2p 2p;/2
- 3s
11.250
2
11.20
11.17
11.01
10.65
-
I
p;/2
2 - 4s
sl/2
- 4p2po
2
I l,2-4a2D5,2
0.237
32*.151'
0.123
32*,151*
I 3/2
3.59
32*,151*
0.848
32*,151*
2 s1/2
16,17*,32*,39,56,85,96,106, 151*,152,181,213,220
I
0.102
PO l/2
2P2P0
3/2
-
2s
l/2
D3/2
2
2 p:/2
-
p;/2
-
2
D5/2 2
2s 2 s1,2
2s
D3/2
2 - 3P Q2
-
2
l/2
8.378
2 2P p;,2
8.290
2
p;/2
16,17*,32*,39,56,85,106,151*, 152,181,213,220
- 3d 2
p;/2
- 4s -
2
s1,2
28
l/2
16,17*,32',39,95,96,106,151* 152,213,220
I
16,17*,32*,39,85,95,96,106, 151*,152,181,190,213,220
4.11
16,17*,32*,56,85,95,96,151*, 190,213,220
16,17*,18',32*,39,40,56,85, 95,96,106,151*,176,181,190, 206,220
i1 0.771
10.61
32*,X1*
10.2
F:/2,5/2
ev
0.380
16,17*,18*,32*,39,40,56,85, 95,96,106,151*,152,176,181, 190,206,220
0.0145
16,32*,54*,55,151*,152,228
0.0073
16,32*,54',55,151*,152,228
278
Atomic
Data and
Nuclear
Data Tables,
Vol. 23, No. 3. March
1979
K. MORI,
M. OTSUKA,
Grotrian
and T. KATO
Diagrams
for FeVIII-
FeXXVI
TABLES. Transition Data See page 233 for Explanation of Tables
Fe
Configuration
x 8.317
(Li
XXIV
2P2P0
312
- Sequence) f
gf
A
References
- 4d 2 D5/2
0.440
16,32*,54*,55,56,95,151*,152, 179,181*,190
8.314
2 pz/2
-
2 D3/2
0.0489
16,32*,54*,151*,152,181*
8.233
2 p;/2
-
2D
0.247
16,32',14*,55,56,95,151',152, 179,181*,228
7.989
2s 2 sl/2
312
- 4p 2 p;,2
0.065
16,32',54*,55,56,95,123,151*, 176,179,181',190
0.096 2
7.979
Sl/2
2
-
3/2
PO l/2
2 - 5d D5/2 2 D3/2
7.233
2 2s %/2
2 - 5P p;,2
6.97
2P2P
1.874
lS22S2S
1.870
2 2 IS 2p P;,2-l*2P2
1.867
Is
7.41
2p2po 2
7.36
2
3/z
0.131
po
16,190 16,190
0.042
2p
- 6d
4
l,2-ls2s2P
2
16,190
D3/2
16,53,55,95,118,123,126,130
22
P;,2-ls2p
53,95,118,123,126,127,130
D3/2 2
p;/2-
16,53,95,118,123,126,127.130
D5/2
2
1.863
16,53,55,126
p;,2
4P3,2
2
2 pQ2
-
16,53,95,118,123,126,127,130
D3/2
1.863 2
1.861
2
16,53,126,127,130,158
2P
3/z
16,53,126,127,130,158
2 2s
l/2
16,126,127,130,155
p;/2-
2
2 zp P;,2-ls2p
1.8525
1s
1.602
lS22S2S
w
16.18*,53,55,85,95,111,118, 123,126,127,130,152.167,181
2P3,2
2
1.858
0.40
p;/2
2 2p P;,2-ls2p2
16,18*,53,55,111,126,127,130, 152,167
I
2 sl/2-
1s
16,151*,152,176,179,181*
2
l/2
1.866
1.862
16,32*,54*,55,56,95,123,151*, 152,176,179.181*,190
-ls2s3p2P"
85
279
Atoms
Data and
Nuclear
Data Tables.
Vol. 23, No. 3. March
1979
K. MORI, M. OTSUKA, and T. KATO
TABLES.
Grotrian Diagrams for FeVIII-FeXXVI
Transition
Data
See page 233 for Explanation of Tables
Fe xxv x
Configuration . + - 1szp“P;
474.7
lS2S‘lS1
280.7
lS2SlSo
- ls2plP;
30.24
ls3plP;
- lS4SlS
30.11
lS3dlD2
- ls4plP;
30.10
ls3p'P;
- ls4d'D
30.02
1s3p3p;
- lS4S3S
30.00
ls3d1D2
29.98
(we
- Sequence)
gf
f
IP = 8828
ev
A
References
0.0820
32*,151*
0.0494
32*,151*
0.106
32*,151
0.179
32*,151
1.87
32*,151
0.322
32*,151
- ls4f'F;
5.10
32*,151
1939351
- 1s4p3p;
1.36
32*,151*
29.98
ls3d3D3
- ls4f3F;
15.27
32*,151
29.96
ls3d3D3
- 1s4p3p;
29.68
ls3p3P;
- ls4d3D
29.55
lS3SlSD
- 1s4plp;
10.61
ls2plP;
- lS3S1S
10.55
ls2plP;
- ls3d1D2
10.46
1szp3p;
- ls3s3S
10.36
ls2p3P;
- ls3d3D
10.18
192s1s0
10.16
1*2s3s0
0
2
1
0.0536
32*,151
5.44
32*,151
0.442
32*,151
0.0436
32*,56,151*
2.26
32*,151',202
0.137
32*,151*
6.18
32*,151*,181*
- ls3plP;
0.344
32',151*
- 1.¶3p3p;
1.22
3
0
1
3
8.7812
280
32*,151*,164*,181
Atomic
Data and Nuclear
Data Tables.
Vol. 23, No. 3, March
1979
K. MORI, M. OTSUKA,
and T. KATO
Grotrian Diagrams for FeVIII-FeXXVI
TABLES. Transition Data See page233 for Explanation of Tables
Fe XXV x
(He
Configuration
- Sequence)
gf
f
References
A
7.816
1szplp;
- lS4Sldo
0.0097
32*,151
7.807
152plP;
- ls4d1D2
0.364
32*,151
7.724
1s2p3p;
- 1s4s3s1
0.0302
32',151
7.701
152p3p;
- ls4d3D3
1.10
32*,151
7.593
1s2slso
- ls4plP;
0.0840
32*,151*
7.586
lS2S3S1
- 1s4p3p;
0.297
32*,151*
1.868
ls2
% 0 -
1.8585
ls2
ls
1.792
1.787
1.784
0.790
0.79
- lSZP3Pi
0.794
0.79
0.79
0.79
17*,18*,38,53,55,95,111,127, 130,151,181*,198,220,223
0.794
0.79
16,17*,18*,25,32*,38,53,55, 85,111,118,127,130,151,152, 155,181,189,198,202,220,223
1
1.8500
1.851
0
lS2S3Sl
3 so -
ls2
ls
0
pz
- ls2plP;
1s2p'P;
- 2p 21
lS2S3Sl
-2s2p3p2
1szplp;
- 2P 21
17*,18*,53,55,111,118,123, 127,130,151*,152,181*,189, 198,202,220,223
8.8913
16,17*,18*,32,38,53,55,85,95, 111,118,123.129,130,151,152, 164,167,181,189,198,220,223
223
D2
223
223
so
1.592
ls2
ls 0 - 1s3plp;
0.156
0.16
17',18*,32*,38,85,151,167, 181*,189,220
1.518
Is2
ls
0.0580
0.057
32*,67,85,151,152,167,181*, 189,220,239
1.46
ls2
ls
0.028
152.181*.189
0
- ls4plP;
0 - ls5plP;
281
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3. March
1979
K. MORI,
M. OTSUKA,
Grotrian
and T. KATO
TABLES.
Transition
Diagrams
for FeVIII-FeXXVI
Data
See page 233 for Explanation of Tables
Fe XXVI Configuration
.I
gf
f
IP = 9278
2s 2 sl,2
- 3p Q2
1.7815
1s
2
2 - 2P p;,2
References 151*,181,239
'i 0.8324
1 0.421
17*,18',38,55,85,95,151,152, 167,180',181*,220,223,239
2 1.7770
1.51
2S l/2
Is 2 s1/2
1.43
2 Is
s1/2
-
17*,18*,55,167,180*,181*,223,
p;/2
2 - 3P Q2
- 4P2P0
eV
A
2
9.63
s1,2
(Ii - Sequence)
0.1582
0.079
18*,32,151,181*,220
151,220,239
l/2
1.40
Is 2 %/2
2 - 5P p;,2
151,220,239
1.39
Is 2 s1/2
- 6~ 2P;,2
151,239
282
Atomic
Data and Nuclear
Data Tables,
Vol. 23. No. 3. March
1979
K. MORI, M.OTSUKA,
Grotrian Diagrams for FeVIII-FeXXVI
andT. KATO
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283
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of
and Radiative
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1979
K. MORI,
M. OTSUKA,
and T. KATO
Grotrian
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Vol. 23, NO. 3. March
1979
K.MORI,M.OTSUKA,andT.
KATO
Grotrian Diagrams for FeVIII-FeXXVI
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