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A novel platform to study magnetized high-velocity collisionless shocks

Authors :
Ph. Korneev
Vladimir Tikhonchuk
B. B. Pollock
H. Pépin
Drew Higginson
S. A. Pikuz
Emmanuel d'Humières
R. Riquier
Sophia Chen
J. Béard
Julien Fuchs
Source :
High Energy Density Physics. 17:190-197
Publication Year :
2015
Publisher :
Elsevier BV, 2015.

Abstract

An experimental platform to study the interaction of two colliding high-velocity (0.01–0.2c; 0.05–20 MeV) proton plasmas in a high strength (20 T) magnetic field is introduced. This platform aims to study the collision of magnetized plasmas accelerated via the Target-Normal-Sheath-Acceleration mechanism and initially separated by distances of a few hundred microns. The plasmas are accelerated from solid targets positioned inside a few cubic millimeter cavity located within a Helmholtz coil that provides up to 20 T magnetic fields. Various parameters of the plasmas at their interaction location are estimated. These show an interaction that is highly non-collisional, and that becomes more and more dominated by the magnetic fields as time progresses (from 5 to 60 ps). Particle-in-cell simulations are used to reproduce the initial acceleration of the plasma both via simulations including the laser interaction and via simulations that start with preheated electrons (to save dramatically on computational expense). The benchmarking of such simulations with the experiment and with each other will be used to understand the physical interaction when a magnetic field is applied. In conclusion, the experimental density profile of the interacting plasmas is shown in the case without an applied magnetic magnetic field, so to show thatmore » without an applied field that the development of high-velocity shocks, as a result of particle-to-particle collisions, is not achievable in the configuration considered.« less

Details

ISSN :
15741818
Volume :
17
Database :
OpenAIRE
Journal :
High Energy Density Physics
Accession number :
edsair.doi.dedup.....57c058e6fa5d34c355a8d147899510ea