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W2944852181 abstract "In this paper we present a protocol to evaluate partial and total Auger decay rates combining the restricted active space self-consistent field electronic structure method for the bound part of the spectrum and numerically obtained continuum orbitals in the single-channel scattering theory framework. Additionally, the two-step picture is employed to evaluate the partial rates. The performance of the method is exemplified for the prototypical Auger decay of the neon $1s{phantom{rule{0.16em}{0ex}}}^{ensuremath{-}1}3p$ resonance. Different approximations to obtain the continuum orbitals, the partial rate matrix elements, and the electronic structure of the bound part are tested against theoretical and experimental reference data. It is demonstrated that the partial and total rates are most sensitive to the accuracy of the continuum orbitals. For instance, it is necessary to account for the direct Coulomb potential of the ion for the determination of the continuum wave functions. The Auger energies can be reproduced quite well already with a rather small active space. Finally, perspectives of the application of the proposed protocol to molecular systems are discussed." @default.
W2944852181 created "2019-05-29" @default.
W2944852181 creator A5003849497 @default.
W2944852181 creator A5025899821 @default.
W2944852181 creator A5036270261 @default.
W2944852181 date "2019-10-24" @default.
W2944852181 modified "2023-09-23" @default.
W2944852181 title "Multireference quantum chemistry protocol for simulating autoionization spectra: Test of ionization continuum models for the neon atom" @default.
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W2944852181 doi "https://doi.org/10.1103/physreva.100.042512" @default.
W2944852181 hasPublicationYear "2019" @default.
W2944852181 type Work @default.
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