Laser-generated supersonic plasma jets and shocks in a transverse magnetic field

Author:

Bohlin HORCID,Brack F-E,Cervenak M,Chodukowski T,Cikhardt JORCID,Dostál J,Dudžák R,Hubner J,Huo W,Jelinek SORCID,Klír DORCID,Kroll F,Krupka M,Krůs M,Pisarczyk TORCID,Rusiniak Z,Schramm UORCID,Nguyen-Bui T-H,Weber SORCID,Zaraś-Szydłowska A,Zeil KORCID,Kumar DORCID,Schlegel T,Tikhonchuk VORCID

Abstract

Abstract The influence of a transverse magnetic field on the formation and evolution of supersonic plasma jets and shocks was studied experimentally, and compared with 3D numerical simulations. An improved jet collimation was seen due to the change in the magnetic field topology restricting the radial expansion of the ablated plasma. The magnetic field was also shown to strongly affect the shock structures, both indirectly through the modified jet geometry, as well as due to a compression of the field lines in the shock region. The interaction characteristics were found to depend on the relative contribution of the magnetic and plasma pressure in balancing the ram pressure of the jet.

Funder

Ministerstwo Nauki i Szkolnictwa Wyższego

Euratom Research and Training Programme

Grantová Agentura České Republiky

Laserlab-Europe

European Regional Development Fund

Publisher

IOP Publishing

Subject

Condensed Matter Physics,Nuclear Energy and Engineering

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