Kinetic Boltzmann approach adapted for modeling highly ionized matter created by x-ray irradiation of a solid.

Abstract

We report on the kinetic Boltzmann approach adapted for simulations of highly ionized matter created from a solid by its x-ray irradiation. X rays can excite inner-shell electrons, which leads to the creation of deeply lying core holes. Their relaxation, especially in heavier elements, can take complicated paths, leading to a large number of active… (More)
DOI: 10.1103/PhysRevE.93.053210

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Cite this paper

@article{Ziaja2016KineticBA, title={Kinetic Boltzmann approach adapted for modeling highly ionized matter created by x-ray irradiation of a solid.}, author={Beata Ziaja and Vikrant Saxena and Sang-Kil Son and Nikita Medvedev and Benjamin Barbrel and Bianca Woloncewicz and Michal Stransky}, journal={Physical review. E}, year={2016}, volume={93 5}, pages={053210} }