Experimental and theoretical study of the double-core-hole hypersatellite Auger spectrum of Ne

Experimental and theoretical study of the double-core-hole hypersatellite Auger spectrum of Ne We present the hypersatellite Auger spectrum of neon which contains the decay transitions of the K−2, K−2V, K−2L−1, K−2L−1V, and K−1L−1V states. The Auger decays of these types of core-hole states show different line shapes and linewidths which can be distinguished due to the high experimental resolution available for the present experiments. The individual Auger transitions are assigned based on various approaches. Complementary calculations are performed to assign the K−2L−1→K−1L−3 and the K−2L−1V→K−1L−3V Auger transitions. Based on the obtained results we were able to derive the ratio for the double to single ionization yield. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Physical Review A American Physical Society (APS)
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Experimental and theoretical study of the double-core-hole hypersatellite Auger spectrum of Ne

Abstract

We present the hypersatellite Auger spectrum of neon which contains the decay transitions of the K−2, K−2V, K−2L−1, K−2L−1V, and K−1L−1V states. The Auger decays of these types of core-hole states show different line shapes and linewidths which can be distinguished due to the high experimental resolution available for the present experiments. The individual Auger transitions are assigned based on various approaches. Complementary calculations are performed to assign the K−2L−1→K−1L−3 and the K−2L−1V→K−1L−3V Auger transitions. Based on the obtained results we were able to derive the ratio for the double to single ionization yield.
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Publisher
The American Physical Society
Copyright
Copyright © ©2017 American Physical Society
ISSN
1050-2947
eISSN
1094-1622
D.O.I.
10.1103/PhysRevA.96.012513
Publisher site
See Article on Publisher Site

Abstract

We present the hypersatellite Auger spectrum of neon which contains the decay transitions of the K−2, K−2V, K−2L−1, K−2L−1V, and K−1L−1V states. The Auger decays of these types of core-hole states show different line shapes and linewidths which can be distinguished due to the high experimental resolution available for the present experiments. The individual Auger transitions are assigned based on various approaches. Complementary calculations are performed to assign the K−2L−1→K−1L−3 and the K−2L−1V→K−1L−3V Auger transitions. Based on the obtained results we were able to derive the ratio for the double to single ionization yield.

Journal

Physical Review AAmerican Physical Society (APS)

Published: Jul 19, 2017

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