Ultrarelativistic Fe plasma with GJ/cm3 energy density created by femtosecond laser pulses

Authors :: Mariya Alkhimova
Igor Skobelev
Tatiana Pikuz
Sergey Ryazantsev
Hironao Sakaki
Alexander S. Pirozhkov
Timur Zh. Esirkepov
Akito Sagisaka
Nicholas P. Dover
Kotaro Kondo
Koichi Ogura
Yuji Fukuda
Hiromitsu Kiriyama
Keita Nishitani
Sergey Pikuz
Masaki Kando
Ryosuke Kodama
Kiminori Kondo
Mamiko Nishiuchi
Source :: Matter and Radiation at Extremes, Vol 9, Iss 6, Pp 067205-067205-11 (2024)
Publication Year :: 2024
Publisher :: AIP Publishing LLC, 2024.
Abstract: The generation of a plasma with an ultrahigh energy density of 1.2 GJ/cm3 (which corresponds to about 12 Gbar pressure) is investigated by irradiating thin stainless-steel foils with high-contrast femtosecond laser pulses with relativistic intensities of up to 1022 W/cm2. The plasma parameters are determined by X-ray spectroscopy. The results show that most of the laser energy is absorbed by the plasma at solid density, indicating that no pre-plasma is generated in the current experimental setup.

Subjects :: Nuclear and particle physics. Atomic energy. Radioactivity
QC770-798

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