J/A+AS/129/603 High-nl Rydberg states in C II, C III and C IV (Quinet 1998)
Predicted term energies, wavelengths and oscillator strengths for transitions
involving high-nl Rydberg states in C II, C III and C IV
Quinet P.
<Astron. Astrophys. Suppl. Ser. 129, 603 (1998)>
=1998A&AS..129..603Q 1998A&AS..129..603Q (SIMBAD/NED BibCode)
ADC_Keywords: Atomic physics
Keywords: atomic data - planetary nebulae: individual: NGC 7027
Abstract:
Predicted term energies for values of the principal quantum number up
to 30 and orbital quantum numbers l≥3 in C II, C III and C IV have
been obtained using the Ritz and the polarization formulae. Wavelength
predictions for lines involving these high-nl term energies together
with the corresponding oscillator strengths, calculated by the HFR
approach, are also reported in the present paper. Some astrophysical
implications of these new atomic data are discussed by means of a
comparison with the observed spectra of the planetary nebula NGC 7027.
File Summary:
--------------------------------------------------------------------------------
FileName Lrecl Records Explanations
--------------------------------------------------------------------------------
ReadMe 80 . This file
table2.dat 40 32 Comparison between the term energies calculated in
this work and the available experimental data.
table3.dat 47 27 Adopted term energies for the nf 2F, ng 2G, nh 2H
and ni 2I series of C II.
table4.dat 47 26 Adopted term energies for the ng {1,3}G, nh {1,3}H,
ni {1,3}I and nk {1,3}K series of C III.
table5.dat 58 27 Adopted term energies for the nf 2F, ng 2G, nh 2H,
ni 2I and nk 2K series of C IV.
table6.dat 30 161 Predicted wavelengths in air and oscillator
strengths for the nd-n'f, nf-n'g, ng-n'h and
nh-n'i (n=3-6, n'=4-30) C II lines in the
400-1100 nm spectral region.
table7.dat 29 146 Predicted wavelengths in air and oscillator
strengths for the nf-n'g, ng-n'h, nh-n'i and
ni-n'k (n=4-7, n'=5-30) C III lines in the
400-1100 nm spectral region.
table8.dat 30 291 Predicted wavelengths in air and oscillator
strengths for the nd-n'f, nf-n'g, ng-n'h,
nh-n'i and ni-n'k (n=5-10, n'=6-30) C IV lines
in the 400-1100 nm spectral region.
--------------------------------------------------------------------------------
Table1: Ritz formulae for the nf, ng series in C II and the ng series in C III.
The standard deviations between experimental term energies (Bashkin &
Stoner 1975) and those calculated using the Ritz formulae are also given
--------------------------------------------------------------------------------
Ion Series a b c Std. Dev.
-------------------------------------------------------------
C II nf 2F 0.028958 -0.221105 0.828474 0.50
C II ng 2G 0.006837 -0.040060 -0.242426 0.32
C III ng {1,3}G 0.026138 -0.672472 6.720485 0.41
-------------------------------------------------------------
Byte-by-byte Description of file: table2.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 5 A5 --- Ion Ion
6- 12 A7 --- Term Term
13- 22 F10.1 cm-1 Expert Experimental term energies
23 A1 --- n_Expert Comment on the experimental term energies (1)
24- 33 F10.1 cm-1 ThisWork Calculated term energies
34 A1 --- n_ThisWork Comment on the calculated term energies (2)
35- 40 F6.1 cm-1 Delta Difference between experimental and
calculated term energies
--------------------------------------------------------------------------------
Note (1): a: Bashkin & Stoner (1975)
b: Tunklev et al. (1997)
Note (2): c: Calculated using the Ritz formula
d: Calculated using the polarization formula
--------------------------------------------------------------------------------
Byte-by-byte Description of file: table3.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 3 A3 --- n Principal quantum number
4- 13 F10.1 cm-1 nf2F Adopted term energies for nf 2F
14 A1 --- n_nf2F Comment on the adopted term energies (1)
15- 24 F10.1 cm-1 ng2G ? Adopted term energies for ng 2G
25 A1 --- n_ng2G Comment on the adopted term energies (1)
26- 35 F10.1 cm-1 nh2H ? Adopted term energies for nh 2H
36 A1 --- n_nh2H Comment on the adopted term energies (1)
37- 46 F10.1 cm-1 ni2I ? Adopted term energies for ni 2I
47 A1 --- n_ni2I Comment on the adopted term energies (1)
--------------------------------------------------------------------------------
Note (1): a: Deduced from the experimental energy levels (Bashkin & Stoner 1975)
b: Calculated from the Ritz formula
c: Calculated from the polarization formula
--------------------------------------------------------------------------------
Byte-by-byte Description of file: table4.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 3 A3 --- n Principal quantum number
4- 13 F10.1 cm-1 ng{1,3}G Adopted term energies for ng {1,3}G
14 A1 --- n_ng{1,3}G Comment on the adopted term energies (1)
15- 24 F10.1 cm-1 nh{1,3}H ? Adopted term energies for nf {1,3}H
25 A1 --- n_nh{1,3}H Comment on the adopted term energies (1)
26- 35 F10.1 cm-1 ni{1,3}I ? Adopted term energies for ni {1,3}I
36 A1 --- n_ni{1,3}I Comment on the adopted term energies (1)
37- 46 F10.1 cm-1 nk{1,3}K ? Adopted term energies for nk {1,3}K
47 A1 --- n_nk{1,3}K Comment on the adopted term energies (1)
--------------------------------------------------------------------------------
Note (1): a: Deduced from the experimental energy levels (Bashkin & Stoner 1975)
b: Calculated from the Ritz formula
c: Calculated from the polarization formula
--------------------------------------------------------------------------------
Byte-by-byte Description of file: table5.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 3 A3 --- n Principal quantum number
4- 13 F10.1 cm-1 nf2F Adopted term energies for nf 2F
14 A1 --- n_nf2F Comment on the adopted term energies (1)
15- 24 F10.1 cm-1 ng2G ? Adopted term energies for ng 2G
25 A1 --- n_ng2G Comment on the adopted term energies (1)
26- 35 F10.1 cm-1 nh2H ? Adopted term energies for nh 2H
36 A1 --- n_nh2H Comment on the adopted term energies (1)
37- 46 F10.1 cm-1 ni2I ? Adopted term energies for ni 2I
47 A1 --- n_ni2I Comment on the adopted term energies (1)
48- 57 F10.1 cm-1 nk2K ? Adopted term energies for nk 2K
58 A1 --- n_nk2K Comment on the adopted term energies (1)
--------------------------------------------------------------------------------
Note (1): a: Deduced from the experimental energy levels (Tunklev et al. 1997)
b: Deduced from the experimental energy levels (Bashkin & Stoner 1975)
c: Calculated from the polarization formula
--------------------------------------------------------------------------------
Byte-by-byte Description of file: table6.dat table7.dat table8.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 7 F7.2 nm Lambda Predicted wavelength in air
9- 20 A12 --- Transition Transition
22- 29 E8.2 --- fg Calculated oscillator strength
--------------------------------------------------------------------------------
Acknowledgements: Pascal Quinet
References:
Bashkin S., Stoner J.O., 1975, Atomic Energy Levels and Grotrian Diagrams,
Vol. I, North Holland/American Elsevier.
Tunklev M., Engstrom L., Jupen C., Kink I., 1997, Phys. Scr. 55, 707.
(End) Patricia Bauer [CDS] 05-Jan-1998