TY - JOUR
T1 - P3
T2 - An installation for high-energy density plasma physics and ultra-high intensity laser–matter interaction at ELI-Beamlines
AU - Weber, S.
AU - Bechet, S.
AU - Borneis, S.
AU - Brabec, L.
AU - Bučka, M.
AU - Chacon-Golcher, E.
AU - Ciappina, M.
AU - DeMarco, M.
AU - Fajstavr, A.
AU - Falk, K.
AU - Garcia, E. R.
AU - Grosz, J.
AU - Gu, Y. J.
AU - Hernandez, J. C.
AU - Holec, M.
AU - Janečka, P.
AU - Jantač, M.
AU - Jirka, M.
AU - Kadlecova, H.
AU - Khikhlukha, D.
AU - Klimo, O.
AU - Korn, G.
AU - Kramer, D.
AU - Kumar, D.
AU - Lastovička, T.
AU - Lutoslawski, P.
AU - Morejon, L.
AU - Olšovcová, V.
AU - Rajdl, M.
AU - Renner, O.
AU - Rus, B.
AU - Singh, S.
AU - Šmid, M.
AU - Sokol, M.
AU - Versaci, R.
AU - Vrána, R.
AU - Vranic, M.
AU - Vyskočil, J.
AU - Wolf, A.
AU - Yu, Q.
N1 - Publisher Copyright:
© 2017 Science and Technology Information Center, China Academy of Engineering Physics
PY - 2017/7
Y1 - 2017/7
N2 - ELI-Beamlines (ELI-BL), one of the three pillars of the Extreme Light Infrastructure endeavour, will be in a unique position to perform research in high-energy-density-physics (HEDP), plasma physics and ultra-high intensity (UHI) (>1022W/cm2) laser–plasma interaction. Recently the need for HED laboratory physics was identified and the P3 (plasma physics platform) installation under construction in ELI-BL will be an answer. The ELI-BL 10 PW laser makes possible fundamental research topics from high-field physics to new extreme states of matter such as radiation-dominated ones, high-pressure quantum ones, warm dense matter (WDM) and ultra-relativistic plasmas. HEDP is of fundamental importance for research in the field of laboratory astrophysics and inertial confinement fusion (ICF). Reaching such extreme states of matter now and in the future will depend on the use of plasma optics for amplifying and focusing laser pulses. This article will present the relevant technological infrastructure being built in ELI-BL for HEDP and UHI, and gives a brief overview of some research under way in the field of UHI, laboratory astrophysics, ICF, WDM, and plasma optics.
AB - ELI-Beamlines (ELI-BL), one of the three pillars of the Extreme Light Infrastructure endeavour, will be in a unique position to perform research in high-energy-density-physics (HEDP), plasma physics and ultra-high intensity (UHI) (>1022W/cm2) laser–plasma interaction. Recently the need for HED laboratory physics was identified and the P3 (plasma physics platform) installation under construction in ELI-BL will be an answer. The ELI-BL 10 PW laser makes possible fundamental research topics from high-field physics to new extreme states of matter such as radiation-dominated ones, high-pressure quantum ones, warm dense matter (WDM) and ultra-relativistic plasmas. HEDP is of fundamental importance for research in the field of laboratory astrophysics and inertial confinement fusion (ICF). Reaching such extreme states of matter now and in the future will depend on the use of plasma optics for amplifying and focusing laser pulses. This article will present the relevant technological infrastructure being built in ELI-BL for HEDP and UHI, and gives a brief overview of some research under way in the field of UHI, laboratory astrophysics, ICF, WDM, and plasma optics.
KW - High repetition rate lasers
KW - High-energy-density-physics
KW - Inertial confinement fusion
KW - Laboratory astrophysics
KW - Laser–plasma interaction
KW - Plasma optics
KW - Relativistic plasmas
KW - Ultra-high-intensity
KW - Warm dense matter
UR - http://www.scopus.com/inward/record.url?scp=85033609764&partnerID=8YFLogxK
U2 - 10.1016/j.mre.2017.03.003
DO - 10.1016/j.mre.2017.03.003
M3 - 文献综述
AN - SCOPUS:85033609764
SN - 2468-2047
VL - 2
SP - 149
EP - 176
JO - Matter and Radiation at Extremes
JF - Matter and Radiation at Extremes
IS - 4
ER -