Title :
High average-power induction linacs
Author :
Prono, D.S. ; Barrett, D. ; Bowles, E. ; Caporaso, G.J. ; Chen, Yu-Jiuan ; Clark, J.C. ; Coffield, F. ; Newton, M.A. ; Nexsen, W. ; Ravenscroft, D. ; Turner, W.C. ; Watson, J.A.
Author_Institution :
Lawrence Livermore Nat. Lab., CA, USA
Abstract :
Designs for LIAs (linear induction accelerators) stem primarily from physics concerns about stable beam transport and emittance preservation; these concerns lead to specific design features of the induction cores and injectors, stringent requirements on energy regulation, and specification of voltage gradient and precision magnetic alignment. Further challenges unique to HAP (high average power) operation (e.g. transient suppression, thermal management) heighten requirements on switching, reset regulation, jitter, power regulation/compensation, diagnostic sensing, and active control. The authors review how the HAP test stands and the total system integration on the ETA-II (Experimental Test Accelerator II) are developing the technologies needed to satisfy these requirements
Keywords :
linear accelerators; ETA-II; HAP; LIAs; active control; diagnostic sensing; emittance preservation; energy regulation; high average power operation; induction cores; injectors; jitter; power regulation/compensation; precision magnetic alignment; reset regulation; stable beam transport; stringent requirements; switching; thermal management; transient suppression; voltage gradient; Accelerator magnets; Energy management; Linear accelerators; Magnetic cores; Particle beams; Physics; Power system management; System testing; Thermal management; Voltage;
Conference_Titel :
Particle Accelerator Conference, 1989. Accelerator Science and Technology., Proceedings of the 1989 IEEE
Conference_Location :
Chicago, IL
DOI :
10.1109/PAC.1989.73475
