Title :
Observable consequences of Langmuir turbulence in active galactic nuclei
Author_Institution :
Landessternwarte Konigstuhl, Heidelberg, West Germany
fDate :
4/1/1989 12:00:00 AM
Abstract :
The author discusses in detail the observable consequences of nonlinear microscopic plasma processes in active galactic nuclei. The combination of several elementary momentum-gain (shock acceleration and stochastic acceleration) and momentum-loss processes (synchrotron radiation, inverse Compton scattering) produces an almost monoenergetic distribution function of relativistic electrons, called the pile-up, which excites Langmuir waves. Turbulent wave-wave and wave-particle interactions lead to nonlinear stabilization of the pile-up. The temporal and spatial evolution of the Langmuir waves and the relativistic electrons determines the shape and time scale of the spectral variations. The model is applied to extragalactic nuclei and to the galactic center as well
Keywords :
astrophysical plasma; galactic nuclei; plasma turbulence; plasma waves; relativistic plasmas; Langmuir turbulence; Langmuir waves; active galactic nuclei; extragalactic nuclei; galactic center; galaxies; inverse Compton scattering; momentum-gain; momentum-loss; monoenergetic distribution function; nonlinear microscopic plasma processes; nonlinear stabilization; pile-up; relativistic electrons; shock acceleration; spatial evolution; spectral variations; stochastic acceleration; synchrotron radiation; wave wave interactions; wave-particle interactions; Acceleration; Distribution functions; Electric shock; Electrons; Microscopy; Plasma accelerators; Plasma waves; Scattering; Stochastic processes; Synchrotron radiation;
Journal_Title :
Plasma Science, IEEE Transactions on
