Theoretical study of energy transfer in Rb(7S) + Rb(5S) and Rb(5D) + Rb(5S) collisions

K. Orlovsky; V. Grushevsky; A. Ekers

doi:10.1007/s100530070050

Theoretical study of energy transfer in Rb(7S) + Rb(5S) and Rb(5D) + Rb(5S) collisions

K. Orlovsky^*
, V. Grushevsky
, A. Ekers

^*Corresponding author for this work

University of Latvia
The University of Kaiserslautern-Landau

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

We present results of theoretical studies of the non-resonant excitation transfer in Rb(7S) + Rb(5S) and Rb(5D) + Rb(5S) collisions at thermal collision energies. Rb₂ adiabatic molecular terms correlating with the 5S+7S, 5S+5D and 5P+5P states of separated atoms were calculated for internuclear distances R > 20 a.u. using asymptotic approximation. Mechanisms of collisional population and quenching of the 5D state were treated on the basis of the computed molecular terms, and the respective cross-sections were calculated. Theoretical cross-sections are in good agreement with the experimental values at thermal collision energies (T ∼ 500 K).

Original language	English
Pages (from-to)	133-146
Number of pages	14
Journal	European Physical Journal D
Volume	12
Issue number	1
DOIs	https://doi.org/10.1007/s100530070050
Publication status	Published - Oct 2000
Externally published	Yes

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10.1007/s100530070050

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title = "Theoretical study of energy transfer in Rb(7S) + Rb(5S) and Rb(5D) + Rb(5S) collisions",

abstract = "We present results of theoretical studies of the non-resonant excitation transfer in Rb(7S) + Rb(5S) and Rb(5D) + Rb(5S) collisions at thermal collision energies. Rb2 adiabatic molecular terms correlating with the 5S+7S, 5S+5D and 5P+5P states of separated atoms were calculated for internuclear distances R > 20 a.u. using asymptotic approximation. Mechanisms of collisional population and quenching of the 5D state were treated on the basis of the computed molecular terms, and the respective cross-sections were calculated. Theoretical cross-sections are in good agreement with the experimental values at thermal collision energies (T ∼ 500 K).",

author = "K. Orlovsky and V. Grushevsky and A. Ekers",

year = "2000",

month = oct,

doi = "10.1007/s100530070050",

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T1 - Theoretical study of energy transfer in Rb(7S) + Rb(5S) and Rb(5D) + Rb(5S) collisions

AU - Orlovsky, K.

AU - Grushevsky, V.

AU - Ekers, A.

PY - 2000/10

Y1 - 2000/10

N2 - We present results of theoretical studies of the non-resonant excitation transfer in Rb(7S) + Rb(5S) and Rb(5D) + Rb(5S) collisions at thermal collision energies. Rb2 adiabatic molecular terms correlating with the 5S+7S, 5S+5D and 5P+5P states of separated atoms were calculated for internuclear distances R > 20 a.u. using asymptotic approximation. Mechanisms of collisional population and quenching of the 5D state were treated on the basis of the computed molecular terms, and the respective cross-sections were calculated. Theoretical cross-sections are in good agreement with the experimental values at thermal collision energies (T ∼ 500 K).

AB - We present results of theoretical studies of the non-resonant excitation transfer in Rb(7S) + Rb(5S) and Rb(5D) + Rb(5S) collisions at thermal collision energies. Rb2 adiabatic molecular terms correlating with the 5S+7S, 5S+5D and 5P+5P states of separated atoms were calculated for internuclear distances R > 20 a.u. using asymptotic approximation. Mechanisms of collisional population and quenching of the 5D state were treated on the basis of the computed molecular terms, and the respective cross-sections were calculated. Theoretical cross-sections are in good agreement with the experimental values at thermal collision energies (T ∼ 500 K).

UR - https://www.scopus.com/pages/publications/0034287837

U2 - 10.1007/s100530070050

DO - 10.1007/s100530070050

M3 - Article

AN - SCOPUS:0034287837

SN - 1434-6060

VL - 12

SP - 133

EP - 146

JO - European Physical Journal D

JF - European Physical Journal D

IS - 1

ER -

Theoretical study of energy transfer in Rb(7S) + Rb(5S) and Rb(5D) + Rb(5S) collisions

Abstract

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