Surface Oscillations in Overdense Plasmas Irradiated by Ultrashort Laser Pulses
Abstract
The generation of electron surface oscillations in overdense plasmas irradiated at normal incidence by an intense laser pulse is investigated. Two-dimensional (2D) particle-in-cell simulations show a transition from a planar, electrostatic oscillation at 2ω, with ω the laser frequency, to a 2D electromagnetic oscillation at frequency ω and wavevector k>ω/c. A new electron parametric instability, involving the decay of a 1D electrostatic oscillation into two surface waves, is introduced to explain the basic features of the 2D oscillations. This effect leads to the rippling of the plasma surface within a few laser cycles, and is likely to have a strong impact on laser interaction with solid targets.
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