Title :
Current status of the recirculator project at LLNL
Author :
Ahle, L. ; Sangster, T.C. ; Autrey, D. ; Barnard, J. ; Craig, G. ; Friedman, A. ; Grote, D.P. ; Halaxa, E. ; Logan, B.G. ; Lund, S.M. ; Mant, G. ; Molvik, A.W. ; Sharp, W.M. ; Eylon, S. ; Debeling, A. ; Fritz, W.
Author_Institution :
Lawrence Livermore Nat. Lab., CA, USA
Abstract :
The Heavy Ion Fusion Group at Lawrence Livermore National Laboratory has for several years been developing the world´s first circular ion induction accelerator designed to transport space charge dominated beams. Currently, the machine extends to 90 degrees, or 10 half-lattice periods (HLP) with induction cores for acceleration placed on every other HLP. Full current transport with acceptable emittance growth without acceleration has been achieved. Recently, a time stability measurement revealed a 2% energy change with time due to a source heating effect. Correcting for this and conducting steering experiments has ascertained the energy to an accuracy of 0.2%. In addition, the charge centroid is maintained to within 0.6-mm throughout the bend section. Initial studies of matches dependencies on beam quality indicate significant effects
Keywords :
cyclic accelerators; ion accelerators; particle beam dynamics; particle beam fusion accelerators; time measurement; LLNL; Lawrence Livermore National Laboratory; beam quality; charge centroid; circular ion induction accelerator; current transport; emittance growth; half-lattice periods; recirculator project; source heating; space charge dominated beams; steering experiments; time stability measurement; Acceleration; Circuits; Heating; Ion beams; Kinetic theory; Laboratories; Power generation; Stability; Statistics; Voltage;
Conference_Titel :
Particle Accelerator Conference, 1999. Proceedings of the 1999
Conference_Location :
New York, NY
Print_ISBN :
0-7803-5573-3
DOI :
10.1109/PAC.1999.792265
