Title :
Oscillating two-stream instability of a plasma wave in a plasma channel
Author :
Ramachandran, K. ; Tripathi, Vipin K.
Author_Institution :
Dept. of Phys., Indian Inst. of Technol., Delhi, India
fDate :
6/1/1997 12:00:00 AM
Abstract :
A long wavelength Langmuir wave (ω0, k0), propagating through a parabolic plasma density channel, can decay into a low-frequency mode (ω,k&oarr;) and two short wavelength Langmuir wave sidebands (ν1,2,k&oarr;1,2 ), via two-stream instability where ω1,2=ω∓ω0 and k&oarr;1,2=k&oarr;∓k&oarr;0. Depending on the mode number n, the growth rate maximizes in the range γmax≃0.1ωpi-0.4ωpi for the range of k from 0.1(ωpi/cs) to 0.2(ωpi/cx) for ν0~νth where ν0 and νth are the oscillatory and thermal velocities of electrons, ωpi is the ion plasma frequency on the axis, and cs is the sound speed. The growth rate increases with the width a of the plasma density channel. It decreases with the mode number. The instability may be relevant to laser based charged particle accelerators
Keywords :
plasma Langmuir waves; plasma density; plasma instability; plasma oscillations; Langmuir wave sidebands; electron velocity; ion plasma frequency; laser based charged particle accelerators; long wavelength Langmuir wave; low-frequency mode; oscillating two-stream instability; parabolic plasma density channel; plasma channel; plasma density; plasma wave; Acceleration; Frequency; Gas lasers; Laser modes; Laser theory; Linear particle accelerator; Optical pulses; Plasma accelerators; Plasma density; Plasma waves;
Journal_Title :
Plasma Science, IEEE Transactions on
