Magnetic stagnation of two counterstreaming plasma jets induced by intense laser

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摘要 Experiments with interacting high-velocity flows in a laser plasma can help answer fundamental questions in plasma physics and improve understanding of the mechanisms behind some astrophysical phenomena,such as the formation of collisionless shock waves,deceleration of accretion flows,and evolution of solar and stellar flares.This work presents the first direct experimental observations of stagnation and redirection of counterstreaming flows(jets)of laser plasma induced by intense laser pulses with intensity I~2×10^(18) W/cm^(2).Hybrid particlein-cell-fluid modeling,which takes into account the kinetic effects of ion motion and the evolution of the pressure tensor for electrons,demonstrates the compression of counterdirected toroidal self-generated magnetic fields embedded in counterstreaming plasma flows.The enhancement of the toroidal magnetic field in the interaction region results in plasma flow stagnation and redirection of the jets across the line of their initial propagation.

作者 R.S.Zemskov S.E.Perevalov A.V.Kotov A.A.Murzanev A.I.Korytin K.F.Burdonov V.N.Ginzburg A.A.Kochetkov S.E.Stukachev I.V.Yakovlev I.A.Shaikin A.A.Kuzmin E.V.Derishev A.V.Korzhimanov A.A.Soloviev A.A.Shaykin A.N.Stepanov M.V.Starodubtsev E.A.Khazanov

机构地区 A.V.Gaponov-Grekhov Institute of Applied Physics of the Russian Academy of Sciences(IAP RAS)

出处《Matter and Radiation at Extremes》 2026年第1期46-57,共12页 极端条件下的物质与辐射(英文)

基金 supported by Russian Science Foundation Grant No.24-62-00032.

分类号 O53 [理学—等离子体物理]

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Matter and Radiation at Extremes

2026年第1期

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Magnetic stagnation of two counterstreaming plasma jets induced by intense laser

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