Title :
Laser driven electron acceleration
Author_Institution :
Div. of Plasma Phys., Naval Res. Lab., Washington, DC, USA
Abstract :
Issues pertaining to laser acceleration in vacuum, neutral gases and plasmas are discussed. For acceleration in vacuum the limitations due to electron slippage, laser diffraction, material damage and electron aperture effects are discussed. To achieve multi GeV electron energies in the laser wakefield accelerator (LWFA) it is necessary to propagate an intense laser pulse long distances in a plasma without disruption. It is shown that electron energies of /spl sim/GeV in a channel guided LWFA can be achieved by using short pulses where the forward Raman and modulation nonlinearities tend to cancel. Further energy gain can be achieved by tapering the plasma density to reduce electron dephasing.
Keywords :
electron accelerators; wakefield accelerators; electron aperture effects; electron dephasing; electron slippage; energy gain; forward Raman nonlinearities; intense laser pulse; laser acceleration; laser diffraction; laser driven electron acceleration; laser wakefield accelerator; material damage; modulation nonlinearities; multi GeV electron energies; neutral gases; plasma density; Acceleration; Diffraction; Electrons; Gas lasers; Gases; Optical materials; Plasma accelerators; Plasma density; Plasma materials processing; Pulse modulation;
Conference_Titel :
Infrared and Millimeter Waves, 2000. Conference Digest. 2000 25th International Conference on
Conference_Location :
Beijing, China
Print_ISBN :
0-7803-6513-5
DOI :
10.1109/ICIMW.2000.892954
