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Trajectory of a flying plasma mirror traversing a target with density gradient

Pisin Chen, Gerard Mourou

2020Physics of Plasmas25 citationsDOIOpen Access PDF

Abstract

It has been proposed that laser-induced relativistic plasma mirror can accelerate if the plasma has a properly tailored density profile. Such accelerating plasma mirrors can serve as analog black holes to investigate Hawking evaporation and the associated information loss paradox. Here we reexamine the underlying dynamics of mirror motion in a graded-density plasma to provide an explicit trajectory as a function of the plasma density and its gradient. Specifically, a decreasing plasma density profile (down-ramp) along the direction of laser propagation would in general accelerate the mirror. In particular, a constant-plus-exponential density profile would generate the Davies–Fulling trajectory with a well-defined analog Hawking temperature, which is sensitive to the plasma density gradient but not to the density itself. We show that without invoking nano-fabricated thin-films, a much lower density gas target at, for example, ∼1×1017cm−3, would be able to induce an analog Hawking temperature, kBTH∼3.1×10−2eV, in the far-infrared region. We hope that this would help to better realize the experiment proposed by Chen and Mourou.

Topics & Concepts

PhysicsPlasmaTrajectoryDensity gradientClassical mechanicsComputational physicsWaves in plasmasLaserHawkingDebye sheathAccelerationProbability density functionOpticsTraverseMotion (physics)Quantum electrodynamicsMechanicsGeometrical opticsWave propagationFunction (biology)Atmospheric-pressure plasmaRelativistic plasmaTwo-stream instabilityEvaporationPlasma diagnosticsPlasma parametersDynamics (music)Plasma parameterPlasma confinementQuantum Electrodynamics and Casimir EffectLaser-Plasma Interactions and DiagnosticsAstrophysical Phenomena and Observations
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