Suppression of thermal nanoplasma emission in clusters strongly ionized by hard x-rays
Kumagai, Yoshiaki; Jurek, Zoltan; Xu, Weiqing; Saxena, Vikrant; Fukuzawa, Hironobu; Motomura, Koji; Iablonskyi, Denys; Nagaya, Kiyonobu; Wada, Shin-ichi; Ito, Yuta; Takanashi, Tsukasa; Yamada, Shuhei; Sakakibara, Yuta; Hiraki, Toshiyuki Nishiyama; Umemoto, Takayuki; Patanen, Minna; Bozek, John D; Dancus, Ioan; Cernaianu, Mihail; Miron, Catalin; Bauer, Tobias; Mucke, Melanie; Kukk, Edwin; Owada, Shigeki; Togashi, Tadashi; Tono, Kensuke; Yabashi, Makina; Son, Sang-Kil; Ziaja, Beata; Santra, Robin; Ueda, Kiyoshi (2021-03-01)
Yoshiaki Kumagai et al 2021 J. Phys. B: At. Mol. Opt. Phys. 54 044001. https://doi.org/10.1088/1361-6455/abd878
© 2021 IOP Publishing Ltd. This is the Accepted Manuscript version of an article accepted for publication in Journal of Physics B: Atomic, Molecular and Optical Physics. IOP Publishing Ltd is not responsible for any errors or omissions in this version of the manuscript or any version derived from it. The Version of Record is available online at https://doi.org/10.1088/1361-6455/abd878.
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https://urn.fi/URN:NBN:fi-fe2021050629039
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Abstract
Using electron and ion spectroscopy, we studied the electron and nuclear dynamics in ~50 000-atom large krypton clusters, following excitation with an intense hard x-ray pulse. Beyond the single pulse experiment, we also present the results of a time-resolved, x-ray pump–near-infrared probe measurement that allows one to learn about the time evolution of the system. After core ionization of the atoms by x-ray photons, trapped Auger and secondary electrons form a nanoplasma in which the krypton ions are embedded, according to the already published scenario. While the ion data show expected features, the electron emission spectra miss the expected pump–probe delay-dependent enhancement except for a slight enhancement in the energy range below 2 eV. Theoretical simulations help to reveal that, due to the deep trapping potential of the ions during the long time expansion accompanied by electron–ion recombination, thermal emission from the transient nanoplasma becomes quenched.
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