Title :
Feasibility of a plasma-filled inverse free electron laser accelerator
Author :
Jarwal, R.K. ; Sharma, Ashok Kumar ; Tripathi, Vipin K.
Author_Institution :
Centre for Energy Studies, Indian Inst. of Technol., New Delhi, India
fDate :
6/1/1999 12:00:00 AM
Abstract :
A high power millimeter (mm) wave, in the presence of a magnetic wiggler, produces a large longitudinal ponderomotive force that can accelerate electrons. When a plasma of density n~ncr, where n cr is critical density, is introduced in the interaction region, the ponderomotive force resonantly drives a plasma wave that accelerates electrons to higher energies. However, propagation of the mm wave requires a guide magnetic field; O-mode requiring less field than the X-mode. The plasma wave in this situation goes over to the upper hybrid (UH) mode. A parabolic plasma density profile with minimum on axis provides guiding for the mm wave as well as the UH wave, the latter being more strongly localized than the former. The UH wave, for typical parameters, can accelerate electrons to several tens of megaelectronvolts
Keywords :
collective accelerators; free electron lasers; plasma density; plasma devices; plasma hybrid waves; plasma instability; O-mode; X-mode; critical density; electron acceleration; guide magnetic field; high power millimeter wave; longitudinal ponderomotive force; millimetre wave propagation; parabolic plasma density profile; plasma wave; plasma-filled inverse free electron laser accelerator; ponderomotive force; strongly localized wave; upper hybrid mode; Acceleration; Electron accelerators; Free electron lasers; Frequency; Millimeter wave propagation; Millimeter wave technology; Plasma accelerators; Plasma density; Plasma waves; Undulators;
Journal_Title :
Plasma Science, IEEE Transactions on
