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Author Ghosh, Aryya ♦ Vaval, Nayana ♦ Pal, Sourav
Source United States Department of Energy Office of Scientific and Technical Information
Content type Text
Language English
Subject Keyword INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY ♦ MATHEMATICAL METHODS AND COMPUTING ♦ ATOMS ♦ COMPARATIVE EVALUATIONS ♦ EQUATIONS OF MOTION ♦ INNER-SHELL IONIZATION ♦ LIFETIME ♦ MOLECULES ♦ RELAXATION
Abstract Auger decay is an efficient ultrafast relaxation process of core-shell or inner-shell excited atom or molecule. Generally, it occurs in femto-second or even atto-second time domain. Direct measurement of lifetimes of Auger process of single ionized and double ionized inner-shell state of an atom or molecule is an extremely difficult task. In this paper, we have applied the highly correlated complex absorbing potential-equation-of-motion coupled cluster (CAP-EOMCC) approach which is a combination of CAP and EOMCC approach to calculate the lifetime of the states arising from 2p inner-shell ionization of an Ar atom and 3d inner-shell ionization of Kr atom. We have also calculated the lifetime of Ar{sup 2+}(2p{sup −1}3p{sup −1}) {sup 1}D, Ar{sup 2+}(2p{sup −1}3p{sup −1}) {sup 1}S, and Ar{sup 2+}(2p{sup −1}3s{sup −1}) {sup 1}P double ionized states. The predicted results are compared with the other theoretical results as well as experimental results available in the literature.
ISSN 00219606
Educational Use Research
Learning Resource Type Article
Publisher Date 2015-07-14
Publisher Place United States
Journal Journal of Chemical Physics
Volume Number 143
Issue Number 2


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