Real-time study of fast-electron transport inside dense hot plasmas

A. S. Sandhu; G. Ravindra Kumar; S. Sengupta; A. Das; P. K. Kaw

doi:10.1103/PhysRevE.73.036409

Real-time study of fast-electron transport inside dense hot plasmas

A. S. Sandhu, G. Ravindra Kumar, S. Sengupta, A. Das, P. K. Kaw

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

We offer a method to study transport of fast electrons in dense hot media. The technique relies on temporal profiling of the laser induced magnetic fields and offers a unique capability to map the hot electron currents and their neutralization (or lack of it) by the return currents in the plasma. We report direct quantitative measurements of strong electric inhibition in insulators and turbulence induced anomalous stopping of hot electrons in conductors. The present technique can prove extremely important from the point of view of fast ignition scheme, which relies on the penetration of fast electrons into the fusion core.

Original language	English (US)
Article number	036409
Journal	Physical Review E - Statistical, Nonlinear, and Soft Matter Physics
Volume	73
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevE.73.036409
State	Published - 2006

ASJC Scopus subject areas

Statistical and Nonlinear Physics
Statistics and Probability
Condensed Matter Physics

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10.1103/PhysRevE.73.036409

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AU - Das, A.

AU - Kaw, P. K.

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AB - We offer a method to study transport of fast electrons in dense hot media. The technique relies on temporal profiling of the laser induced magnetic fields and offers a unique capability to map the hot electron currents and their neutralization (or lack of it) by the return currents in the plasma. We report direct quantitative measurements of strong electric inhibition in insulators and turbulence induced anomalous stopping of hot electrons in conductors. The present technique can prove extremely important from the point of view of fast ignition scheme, which relies on the penetration of fast electrons into the fusion core.

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Real-time study of fast-electron transport inside dense hot plasmas

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