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Cross-beam energy transfer saturation by ion trapping-induced detuning

K. L. Nguyen, L. Yin, B. J. Albright, A. M. Hansen, D. H. Froula, D. Turnbull, R. K. Follett, J. P. Palastro

2021Physics of Plasmas10 citationsDOIOpen Access PDF

Abstract

The performance of direct-drive inertial confinement fusion implosions relies critically on the coupling of laser energy to the target plasma. Cross-beam energy transfer (CBET), the resonant exchange of energy between intersecting laser beams mediated by ponderomotively driven ion-acoustic waves (IAWs), inhibits this coupling by scattering light into unwanted directions. The variety of beam intersection angles and varying plasma conditions in an implosion results in IAWs with a range of phase velocities. Here, we show that CBET saturates through a resonance detuning that depends on the IAW phase velocity and that results from trapping-induced modifications to the ion distribution functions. For smaller phase velocities, the modifications to the distribution functions can rapidly thermalize in the presence of mid-Z ions, leading to a blueshift in the resonant frequency. For larger phase velocities, the modifications can persist, leading to a redshift in the resonant frequency. Ultimately, these results may reveal pathways toward CBET mitigation and inform reduced models for radiation hydrodynamics codes to improve their predictive capability.

Topics & Concepts

PhysicsImplosionAtomic physicsThermalisationPlasmaIonResonance (particle physics)Coupling (piping)ScatteringPhase (matter)RedshiftSaturation (graph theory)Inertial confinement fusionLaserBlueshiftFeshbach resonanceRange (aeronautics)Ion acoustic waveEnergy (signal processing)RadiationThomson scatteringMolecular physicsComputational physicsBeam (structure)Distribution functionOpticsLaser-Plasma Interactions and DiagnosticsLaser-induced spectroscopy and plasmaLaser-Matter Interactions and Applications
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