TY  - JOUR
A1  - Deutsch, Claude
A1  - Maynard, Gilles
A1  - Chabot, Marin
A1  - Gardes, Daniel
A1  - Della-Negra, Serge
A1  - Bimbot, René
A1  - Rivet, Marie-France
A1  - Fleurier, Claude
A1  - Couillaud, Christophe
A1  - Hoffmann, Dieter H. H.
A1  - Wahl, H.
A1  - Weyrich, Karin
A1  - Rosmej, Olga N.
A1  - Tahir, Naeem Ahmad
A1  - Jacoby, Joachim
A1  - Ogawa, Masao
A1  - Oguri, Yoshiyuki
A1  - Hasegawa, Jun
A1  - Sharkov, Boris Y.
A1  - Golubev, Alexey A.
A1  - Fertman, Alexander
A1  - Fortov, Vladimir E.
A1  - Mintsev, Victor
T1  - Ion stopping in dense plasma target for high energy density physics
T2  - The open plasma physics journal
N2  - The basic physics of nonrelativistic and electromagnetic ion stopping in hot and ionized plasma targets is thoroughly updated. Corresponding projectile-target interactions involve enhanced projectile ionization and coupling with target free electrons leading to significantly larger energy losses in hot targets when contrasted to their cold homologues. Standard stoppping formalism is framed around the most economical extrapolation of high velocity stopping in cold matter. Further elaborations pay attention to target electron coupling and nonlinearities due to enhanced projectile charge state, as well. Scaling rules are then used to optimize the enhanced stopping of MeV/amu ions in plasmas with electron linear densities nel ~ 10 18 -10 20 cm -2 . The synchronous firing of dense and strongly ionized plasmas with the time structure of bunched and energetic multicharged ion beam then allow to probe, for the first time, the long searched enhanced plasma stopping and projectile charge at target exit. Laser ablated plasmas (SPQR1) and dense linear plasma columns (SPQR2) show up as targets of choice in providing accurate and on line measurements of plasma parameters. Corresponding stopping results are of a central significance in asserting the validity of intense ion beam scenarios for driving thermonuclear pellets. Other applications of note feature thorium induced fission, novel ion sources and specific material processing through low energy ion beams. Last but not least, the given ion beam-plasma target interaction physics is likely to pave a way to the production and diagnostics of warm dense matter (WDM).
KW  - ion stopping
KW  - dense plasma target
KW  - heavy ion fusion
KW  - HEDP
KW  - inertial confinement fusion
KW  - projectile effective charge
Y1  - 2013
UR  - http://publikationen.ub.uni-frankfurt.de/frontdoor/index/index/docId/28720
UR  - https://nbn-resolving.org/urn:nbn:de:hebis:30:3-287205
SN  - 1876-5343
N1  - © Deutsch et al.; Licensee Bentham Open. This is an open access article licensed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/3.0/) which permits unrestricted, non-commercial use, distribution and reproduction in any medium, provided the work is properly cited
VL  - 3
SP  - 88
EP  - 115
PB  - Bentham Open
CY  - Sharjah [u.a.]
ER  -