Prospects for Heating Tokamaks by Parametric Decay of Intense Extraordinary Mode Radiation

Abstract

Intense electron beam technology has developed coherent very high power (350-MW) microwave sources at frequencies which are a modest fraction of the electron-cyclotron frequency in tokamaks. Propagation into a plasma occurs via the extraordinary mode which is subject to parametric decay instabilities in the density range ω02< ωpe2<ω0(ω0+Ωe), where ω0 is the impressed frequency, Ωpe the electron plasma frequency,Ωe the electron-cyclotron frequency. For an incident wave focused onto a hot spot by a dish antenna of radius ρ, the effective threshold power P0 required to induce effective parametric heating is roughly P0 ≃8 MW x/Ω e/ω0 (Te/ 1 keV)3/2 where x denotes the distance to the hot spot. With present single-pulse technology, experiments which demonstrate nonlinear absorption are possible. Significant heating of tokamaks requires the development of a high repetition frequency intense microwave source.