Kinetic Boltzmann approach adapted for modeling highly ionized matter created by x-ray irradiation of a solid. [electronic resource]
By: Contributor(s): Producer: 20180709Description: 053210 p. digitalISSN:- 2470-0053
Publication Type: Journal Article
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Kinetic Boltzmann approach adapted for modeling highly ionized matter created by x-ray irradiation of a solid.
APA
Ziaja B., Saxena V., Son S., Medvedev N., Barbrel B., Woloncewicz B. & Stransky M. (20180709). Kinetic Boltzmann approach adapted for modeling highly ionized matter created by x-ray irradiation of a solid. : Physical review. E.
Chicago
Ziaja Beata, Saxena Vikrant, Son Sang-Kil, Medvedev Nikita, Barbrel Benjamin, Woloncewicz Bianca and Stransky Michal. 20180709. Kinetic Boltzmann approach adapted for modeling highly ionized matter created by x-ray irradiation of a solid. : Physical review. E.
Harvard
Ziaja B., Saxena V., Son S., Medvedev N., Barbrel B., Woloncewicz B. and Stransky M. (20180709). Kinetic Boltzmann approach adapted for modeling highly ionized matter created by x-ray irradiation of a solid. : Physical review. E.
MLA
Ziaja Beata, Saxena Vikrant, Son Sang-Kil, Medvedev Nikita, Barbrel Benjamin, Woloncewicz Bianca and Stransky Michal. Kinetic Boltzmann approach adapted for modeling highly ionized matter created by x-ray irradiation of a solid. : Physical review. E. 20180709.