Title :
Laser Generation and Transport of a Relativistic Electron Beam
Author :
Shope, S.L. ; Frost, C.A. ; Leifeste, G.T. ; Crist, C.E. ; Kiekel, P.D. ; Poukey, J.W. ; Godfrey, B.B.
Author_Institution :
Sandia National Laboratories Albuquerque, New Mexico 87185
Abstract :
A foilless diode usually requires an externally applied magnetic field to control expansion and transport of a relativistic electron beam. A new foilless diode has been developed that does not require an external magnetic field. A low pressure organic gas is introduced into the diode and the transport region. A UV laser beam is injected through the transport region and is terminated at the cathode. The laser photoionizes the low pressure gas forming an ionized channel that captures the electron beam near the cathode. The electron beam is focused and guided by electrostatic attraction to the ionized channel. A 1.5-MeV, 20-kA electron beam has been generated and transported 1 m using this technique. The laser was replaced by an 800-V, 250-ma, low-energy electron beam which was used to guide the relativistic electron beam 4 m through a 90° bend.
Keywords :
Cathodes; Current measurement; Diodes; Electron beams; Gas lasers; Laboratories; Laser beams; Magnetic fields; Particle beams; X-ray lasers;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.1985.4334285