Abstract
The effects of plasma turbulence on the generation of radiation in a system of a free-electron-laser and a molecular and plasma medium is investigated by means of a kinetic description. The results are that low frequency waves become damped due to the presence of turbulence, whereas for sufficiently high frequencies (ω > ωpeγ, the plasma frequency times the relativistic factor) the turbulence, also in the presence of a molecular medium (ω > ωr, the molecular resonance frequency), may lead to amplification of the radiation.
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