T
T. Houck
Publications - 5
Citations - 69
T. Houck is an academic researcher. The author has contributed to research in topics: Klystron & Particle accelerator. The author has an hindex of 3, co-authored 5 publications receiving 68 citations.
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High-gradient electron accelerator powered by a relativisitic klystron.
M. A. Allen,J.K. Boyd,R.S. Callin,H. Deruyter,K. Eppley,K.S. Fant,W.R. Fowkes,J. Haimson,H. A. Hoag,D. B. Hopkins,T. Houck,R.F. Koontz,T.L. Lavine,G. A. Loew,B. Mecklenburg,Roger H. Miller,Ronald D. Ruth,R.D. Ryne,Andrew M. Sessler,Arnold Vlieks,J.W. Wang,G.A. Westenskow,Simon S. Yu +22 more
TL;DR: Relativistic klystron technology is used to extract 290 MW of peak power from an induction linac beam, and to power a short 11.4-GHz high-gradient accelerator to measure rf phase stability, field emission, and the momentum spectrum of an accelerated electron beam.
Recent progress in relativistic klystron research
Allen,R.S. Callin,H. Deruyter,K. Eppley,K.S. Fant,W.R. Fowkes,H. A. Hoag,R.F. Koontz,T.L. Lavine,G. A. Loew,R.H. Miller,R.D. Ruth,Arnold Vlieks,J.W. Wang,Daniel P. Aalberts,J.K. Boyd,T. Houck,R.D. Ryne,G.A. Westenskow,S.S. Yu,D.B. Hopkins,Andrew M. Sessler,J. Haimson,B. Mecklenburg +23 more
TL;DR: In this article, a relativistic klystron was used to power a short, 11.4 GHz high-gradient accelerator, achieving peak power levels of 290 MW.
Relativistic klystrons for high-gradient accelerators
G.A. Westenskow,Daniel P. Aalberts,J.K. Boyd,G.A. Deis,T. Houck,T.J. Orzechowski,R.D. Ryne,S.S. Yu,Allen,R.S. Callin,H. Deruyter,K.R. Eppley,K.S. Fant,W.R. Fowkes,H. A. Hoag,R. F. Koontz,T.L. Lavine,G. A. Loew,R. H. Miller,R.D. Ruth,A.E. Vlieks,J.W. Wang,J. Haimson,Mecklen +23 more
TL;DR: In this paper, the relativistic klystron was used as a power source for high-gradient accelerators and achieved peak rf power levels of 330 MW using an 11.4 GHz high-gain tube with multiple output structures.
RELATIVISTIC KLYSTRON RESEARCH AT SLAC AND LLNLt
M. A. Allen,R.S. Callin,H. Deruyter,K.R. Eppley,W.R. Fowkes,W. B. Herrmannsfeldt,Toshiyasu Higo,H. A. Hoag,T.L. Lavine,T.G. Lee,G. A. Loew,R. H. Miller,P. L. Morton,R.B. Palmer,J. M. Paterson,R.D. Ruth,H. D. Schwarz,Y. Takeuchi,Arnold Vlieks,J.W. Wang,P. B. Wilson,D.B. Hopkins,Andrew M. Sessler,William A. Barletta,D. L. Birx,J. K. Boyd,T. Houck,G. A. Westenskow,S. S. Yv +28 more
TL;DR: In this paper, a relativistic klystron was developed as a power source for high gradient accelerator applications such as large linear electron-positron colliders and compact accelerators.
(A/E) Recent Progress in Relativistic Klystron Research*
M. A. Allen,R.S. Callin,H. Deruyter,K.R. Eppley,K.S. Fant,W.R. Fowkes,H. A. Hoag,R. F. Koontz,T.L. Lavine,G. A. Loew,R. H. Miller,R.D. Ruth,Arnold Vlieks,J.W. Wang,Daniel P. Aalberts,J.K. Boyd,T. Houck,R.D. Ryne,G.A. Westenskow,S.S. Yu,D.B. Hopkins,Andrew M. Sessler,J. Haimson,B. Mecklenburg +23 more
TL;DR: In this article, a relativistic klystron was used to power a short, 11.4 GHz high-gradient accelerator with a peak power level of 290 MW and measured momentum spectrum of the accelerated electron beam corresponds to an accelerating gradient of 84 MVIm.