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Abstract of [Hao15a]

Electronic structure calculations of multiple core hole states in molecules

Yajiang Hao, Ludger Inhester, Sang-Kil Son, and Robin Santra

DPG Spring Meeting of the Section AMOP
(German Physical Society, Heidelberg, Germany, March 23-27, 2015)

[bib][BibTeX][link]http://www.dpg-verhandlungen.de/year/2015/conference/heidelberg/part/mo/session/8/contribution/5

Newly available x-ray light sources such as X-ray Free Electron Lasers allow one to study highly excited electronic states with one or several core vacancies. These states may appear with significant probability if a sample is exposed to highly intense x-ray radiation and, they may, thus, crucially determine the evolution of radiation damage[1]. Further, spectroscopy of multiple core hole states is of great relevance, because the associated strong chemical shifts reveal detailed information on the surrounding chemical environment[2,3]. For the theoretical modelling of these states a relative large basis set is required to capture the strong electronic relaxation effects upon core ionization. We present a new scheme for the electronic structure calculation of these states based on basis functions obtained by previous atomic Hartree-Fock-Slater calculations[4]. Results are shown for all combinations of core vacancies in the carbon monoxide molecule. By using basis functions adapted to the respective core vacancy states, we show that the number of the basis functions can be reduced while achieving results of similar quality. This reduction makes calculations of multiple core hole states also in larger molecules feasible. [1] Young et al., Nature 466, 56 (2010); [2] Cederbaum et al., JCP 85, 6513 (1986); [3] Berrah, et al. PNAS 108, 16912 (2011); [4] Son et al., PRA 83, 033402 (2011).

Tags: CO, H2O, core-hole states, SCH, DCH, XMOLECULE, XFEL, CFEL, DESY


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