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Measurements of Non-Maxwellian Electron Distribution Functions and Their Effect on Laser Heating

A. L. Milder, J. Katz, R. Boni, J. P. Palastro, M. Sherlock, W. Rozmus, D. H. Froula

2021Physical Review Letters52 citationsDOIOpen Access PDF

Abstract

Electron velocity distribution functions driven by inverse bremsstrahlung heating are measured to be non-Maxwellian using a novel angularly resolved Thomson-scattering instrument and the corresponding reduction of electrons at slow velocities results in a ∼40% measured reduction in inverse bremsstrahlung absorption. The distribution functions are measured to be super-Gaussian in the bulk (v/v_{th}<3) and Maxwellian in the tail (v/v_{th}>3) when the laser heating rate dominates over the electron-electron thermalization rate. Simulations with the particle code quartz show the shape of the tail is dictated by the uniformity of the laser heating.

Topics & Concepts

BremsstrahlungElectronAtomic physicsPhysicsDistribution functionLaserThomson scatteringThermalisationInverseElectron scatteringElectron temperatureScatteringNuclear physicsOpticsQuantum mechanicsMathematicsGeometryLaser-Plasma Interactions and DiagnosticsLaser-induced spectroscopy and plasmaIon-surface interactions and analysis
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