Dielectronic recombination and resonant transfer excitation processes for helium-like krypton

doi:10.1088/1674-1056/21/10/103401

Abstract The relativistic configuration interaction method is employed to calculate the dielectronic recombination (DR) cross sections of helium-like krypton via the 1s2lnl' (n=2,3,...,15) resonances. Then, the resonant transfer excitation (RTE) processes of Kr³⁴⁺ colliding with H, He, H₂, and CH_x (x=0-4) targets are investigated under the impulse approximation. The needed Compton profiles of targets are obtained from the Hartree-Fock wave functions. The RTE cross sections are strongly dependent on DR resonant energies and strengths, and the electron momentum distributions of the target. For H₂ and H targets, the ratio of their RTE cross sections changes from 1.85 for the 1s2l2l' to 1.88 for other resonances, which demonstrates the weak molecular effects on the Compton profiles of H₂. For CH_x (x=0-4) targets, the main contribution to the RTE cross section comes from the carbon atom since carbon carries 6 electrons; as the number of hydrogen increases in CH_x, the RTE cross section almost increases by the same value, displaying the strong separate atom character for the hydrogen. However, further comparison of the individual orbital contributions of C(2p, 2s, 1s) and CH₄(1t₂, 2a₁, 1a₁) to the RTE cross sections shows that the molecular effects induce differences of about 25.1%, 19.9%, and 0.2% between 2p-1t₂, 2s-2a₁, and 1s-1a₁ orbitals, respectively.

Keywords: dielectronic recombination Compton profile resonant transfer excitation

Received: 09 March 2012
Revised: 12 April 2012
Accepted manuscript online:

PACS:	34.50.Fa	(Electronic excitation and ionization of atoms (including beam-foil excitation and ionization))
	34.80.Dp	(Atomic excitation and ionization)

Fund: Project supported by the National Natural Science Foundation of China (Grant Nos. 1179041, 11025417, and 10979007) and the NSAF (Grant No. 10876043).

Corresponding Authors: Qu Yi-Zhi
E-mail: yzqu@gucas.ac.cn

Cite this article:

Hu Xiao-Li (胡骁骊), Qu Yi-Zhi (屈一至), Zhang Song-Bin (张松斌), Zhang Yu (张宇) Dielectronic recombination and resonant transfer excitation processes for helium-like krypton 2012 Chin. Phys. B 21 103401

[1]	Fuchs T, Biedermann C, Radtke R, Behar E and Doron R 1998 Phys. Rev. A 58 4518
[2]	Tanis J A, Bernstein E M, Clark M W, Graham W G, McFarland R H, Morgan T J, Mowat J R, Mueller D W, Muller A, Stockli M P, Berkner K H, Gohil P, McDonald R J, Schlachter A S and Sterns J W 1986 Phys. Rev. A 34 2543
[3]	Tanis J A, Bernstein E M, Graham W G, Stockli M P, Clark M, McFarland R H, Morgan T J, Berkner K H, Schlachter A S and Sterns J W 1984 Phys. Rev. Lett. 53 2551
[4]	Ma X, Mokler P H, Bosch F, Gumberidze A, Kozhuharov C, Liesen D, Sierpowski D, Stachura Z, Stohlker Th and Warczak A 2003 Phys. Rev. A 68 042712
[5]	Dong C Z and Fu Y B 2006 Acta Phys. Sin. 55 107 (in Chinese)
[6]	Dong C Z, Wang J G, Qu Y Z and Li J M 1999 Physica Scripta T80 301
[7]	Nakano T, Kubo H, Higashijima S, Asakura N, Takenaga H, Sugie T and Itami K 2002 Nucl. Fusion 42 689
[8]	Hehre W J, Ditchfield R and People J A 1972 J. Chem. Phys. 56 2257
[9]	Dunning T H Jr 1989 J. Chem. Phys. 90 1007
[10]	Woon D E and Dunning T H Jr 1994 J. Chem. Phys. 100 2975
[11]	Kendall R A and Dunning T H Jr 1992 J. Chem. Phys. 96 6796
[12]	Gu M F 2003 Astrophys. J. 582 1241
[13]	Gu M F 2003 Astrophys. J. 589 1085
[14]	Gu M F 2003 Astrophys. J. 590 1131
[15]	Liu X J, Qu Y Z, Xiao B J and Wang J G 2009 Eur. Phys. J. D 55 57
[16]	Shi X H, Wang Y S, Chen C Y and Gu M F 2005 Chin. Phys. 14 959
[17]	Brandt D 1983 Phys. Rev. A 27 1314
[18]	Eisenberger P 1970 Phys. Rev. A 2 1678
[19]	Dumond J W M 1929 Phys. Rev. 33 643
[20]	Brion C E, Cooper G, Zheng Y, Litvinyuk I V and McCarthy I E 2001 Chem. Phys. 270 13
[21]	Dey S, McCarthy I E, Teubner P J O and Weigold E 1975 Phys. Rev. Lett. 34 782
[22]	Biedermann C, Fuchs T, Liebisch P, Radtke R, Behar E and Doron R 1999 Physica Scripta T80 303
[23]	Eisenberger P and Reed W A 1972 Phys. Rev. A 5 2085
[24]	Jeziorski B and Szalewicz K 1979 Phys. Rev. A 19 2360
[25]	Lee J S 1976 J. Chem. Phys. 66 4906
[26]	Frisch M J, Trucks G W, Schlegel H B, Gill P M W, Johnson B G, Robb M A, Cheeseman M J R, Keith T A, Petersson G A, Montgomery J A, Raghavachari K, Al-Laham M A, Zakrzewski V G, Ortiz J V, Foresman J B, Ciosloswki J, Stefanof B B, Nanayakkara A, Challacombe M, Peng C Y, Ayala P Y, Chen W, Wong M W, Andres J L, Replogle E S, Gomperts R, Martin R L, Fox D J, Binkley J S, Defrees D J, Baker J, Stewart J P, Head-Gordon M, Gonzalez C and Pople J A 1998 Gaussian 98 Revision A.9
[27]	Linstrom, P J and Mallard, W G 2001 NIST Chemistry WebBook, NIST Standard Reference Database No. 69 (Gaithersburg: National Institute of Standards and Technology, http://webbook.nist.gov.)

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Dielectronic recombination and resonant transfer excitation processes for helium-like krypton

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