Theoretical interpretation for 2p − nd absorption spectra of iron, nickel, and copper in X-ray range measured at the LULI2000 facility

Poirier M.; Arnault P.; Bastiani-Ceccotti S.; Blenski T.; Dortan F. de Gaufridy de; Gilleron F.; Loisel G.; Pain J.-C.; Porcherot Q.; Reverdin C.; Silvert V.; Thais F.; Turck-Chièze S.

doi:10.1051/epjconf/20135914001

EPJ Web of Conferences (Nov 2013)

Theoretical interpretation for 2p − nd absorption spectra of iron, nickel, and copper in X-ray range measured at the LULI2000 facility

Poirier M.,
Arnault P.,
Bastiani-Ceccotti S.,
Blenski T.,
Dortan F. de Gaufridy de,
Gilleron F.,
Loisel G.,
Pain J.-C.,
Porcherot Q.,
Reverdin C.,
Silvert V.,
Thais F.,
Turck-Chièze S.

Affiliations

Poirier M.
Arnault P.
Bastiani-Ceccotti S.
Blenski T.
Dortan F. de Gaufridy de
Gilleron F.
Loisel G.
Pain J.-C.
Porcherot Q.
Reverdin C.
Silvert V.
Thais F.
Turck-Chièze S.

DOI: https://doi.org/10.1051/epjconf/20135914001
Journal volume & issue: Vol. 59
p. 14001

Abstract

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The 2p − nd absorption structures in medium Z elements present a valuable benchmark for atomic models since they exhibit a complex dependence on temperature and density. For these transitions lying in the X-ray range, one observes a competition between the spin-orbit splitting and the broadening associated to the excitation of complex structures. Detailed opacity codes based on the HULLAC or FAC suites agree with the statistical code SCO; but in iron computations predict higher peak absorption than measured. An addition procedure on opacities calculated with detailed codes is proposed and successfully tested.

Published in EPJ Web of Conferences

ISSN: 2100-014X (Online)
Publisher: EDP Sciences
Country of publisher: France
LCC subjects: Science: Physics
Website: http://www.epj-conferences.org/

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