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Review and meta-analysis of electron temperatures from high-intensity laser–solid interactions

D. Rusby, A. Kemp, S. C. Wilks, Kyle G. Miller, M. Sherlock, Hui Chen, Raspberry Simpson, D. Mariscal, K. K. Swanson, B. Z. Djordjević, A. Link, G. J. Williams, A. J. Mackinnon

2024Physics of Plasmas21 citationsDOIOpen Access PDF

Abstract

The accelerated electron spectrum from high-intensity laser–solid interaction is often conveniently described using a Boltzmann distribution, whose temperature is known within the field as the hot-electron temperature. The importance of the electron temperature is highlighted by the sheer number of experimental and simulation studies on the subject over the past three decades. Recently, multi-kJ, multi-ps pulses have yielded electron spectra with temperatures far beyond the expected ponderomotive result. Expressions that predict the electron temperature considering laser parameters beyond intensity and wavelength have been developed, albeit using small datasets. In this review, we present what is, to the best of our knowledge, the largest dataset of electron temperatures gathered from experimental measurements and particle-in-cell simulations. This dataset allows us to compare existing analytical and empirical hot-electron temperature scaling models over a wide parameter range. We also develop new scaling models that incorporate the laser pulse duration of the laser and the plasma scale length. Three models that include pulse-duration and scale length dependence are especially successful at predicting both simulated and experimental data. The dataset will soon be made publicly available to encourage further investigation.

Topics & Concepts

Electron temperaturePhysicsElectronPlasmaScalingComputational physicsLaserIntensity (physics)Range (aeronautics)Atomic physicsScale (ratio)Particle-in-cellStatistical physicsOpticsMaterials scienceQuantum mechanicsGeometryComposite materialMathematicsLaser-Plasma Interactions and DiagnosticsLaser-induced spectroscopy and plasmaHigh-pressure geophysics and materials
Review and meta-analysis of electron temperatures from high-intensity laser–solid interactions | Litcius