1986 International Linac Conference - List of Keywords (klystron)

A B C D E F G H I K L M N O P Q R S T U V W

klystron

Paper	Title	Other Keywords	Page
MO2-3	RF Power Sources for 1990 and Beyond	cavity, cathode, induction, laser	29
	D.W. Reid LANL, Los Alamos, New Mexico, USA
MO3-1	Operational Experience with SLAC Energy Upgrade	cathode, controls, SLAC, cavity	39
	M.A. Allen, R.L. Cassel, N.R. Dean, G.T. Konrad, R.F. Koontz, H.D. Schwarz, A.E. Vlieks SLAC, Stanford, California, USA
MO3-13	RF Drive System for the CEBAF Superconducting Cavities	cavity, controls, CEBAF, superconducting-cavity	70
	J.A. Fugitt, T.L. Moore CEBAF, Newport News, Virginia, USA
MO3-17	The Maximum Efficiency of a Conventional Klystron Output Cavity	cavity, electron, SLAC, simulation	85
	J.J. Welch SLAC, Stanford, California, USA
MO3-28	High Power Pulsed Klystron for Linacs	gun, linac, SLAC, electron	106
	T. Onodera, K. Hayashi, H. Iyeki Mitsubishi Electric Corporation, Amagasaki-shi, Hyogo, Japan
MO3-29	Improving the Efficiency of Microwave Devices with a Double Output Cavity	cavity, impedance, simulation, SLAC	109
	K.R. Eppley, W.B. Herrmannsfeldt, T.G. Lee SLAC, Stanford, California, USA
MO3-33	RF-Sources for Proton Linacs	cathode, electron, cavity, proton	122
	G. Faillon, D.T. Tran Thomson Tubes Electroniques, Boulogne-Billancourt, France
MO3-47	A Coherent Very High Power Microwave Source Using a Virtual Cathode Oscillator	cathode, cavity, electron, injection	157
	M.V. Fazio, R.F. Hoeberling LANL, Los Alamos, New Mexico, USA
MO3-49	New Concepts in Microwave Sources for e⁺e^- Supercolliders	electron, cavity, linac, SLAC	163
	V.L. Granatstein, P.E. Latham, W. Lawson, J.H. McAdoo, M. Reiser, C.D. Striffler University of Maryland, College Park, Maryland, USA
TU2-4	Comparison of Standing-Wave and Traveling-Wave Structures	impedance, SLAC, cavity, coupling	200
	R.H. Miller SLAC, Stanford, California, USA
WE1-2	Special SLC Linac Developments	linac, damping, wakefield, electron	214
	J.T. Seeman, J.C. Sheppard SLAC, Stanford, California, USA
WE1-3	Advanced Technology Recently Developed at KEK for Future Linear Colliders	vacuum, cavity, KEK, electron	220
	J. Tanaka KEK, Ibaraki, Japan
TH3-2	Positron Injection Linac System for the Argonne Light Source	positron, electron, linac, target	431
	G. Mavrogenes, Y. Cho, T. Khoe ANL, Argonne, Illinois, USA
TH3-4	High-Field Capture Section for SLC Positron Source	cavity, positron, radiation, impedance	437
	H.A. Hoag, H. Deruyter, J. Kramer, C.G. Yao SLAC, Stanford, California, USA
TH3-19	Phase Control System of the KEK 2.5 GeV Electron Linac	controls, acceleration, linac, booster	481
	H. Hanaki, S. Anami, S. Ohsawa, Y. Otake, Y. Saito, J. Tanaka KEK, Ibaraki, Japan
TH3-26	Accelerator Guide of Positron Generator Linac	cavity, linac, positron, acceleration	499
	I. Sato, A. Enomoto, K. Kakihara, H. Matsumoto, T. Oogoe, J. Tanaka KEK, Ibaraki, Japan K. Inoue, Y. Iino, K. Taki, N. Yamaguchi Mitsubishi Heavy Industries Ltd., Nagoya-shi, Japan
TH3-28	A 90 MeV Electron Linac of IHEP	electron, gun, linac, vacuum	505
	S. Zhou IHEP Beijing, Beijing, China
TH3-31	The 200 MeV Linac at HESYRL	linac, electron, cavity, radiation	515
	D.-F. Wang, T.-H. Ho, Y.-J. Pei University of Science and Technology of China, Hefei Anhui, China
TH3-42	EG&G Electron Linac Modifications	gun, controls, electron, cathode	546
	N.J. Norris, J.L. Detch, C.L. Hudson, S.M. Kocimski, C.R. Sawyer EG&G Energy Measurements Inc., Goleta, California, USA
TH3-45	A Recirculating Linac as an Injector for Small Storage Rings or Free Electron Lasers	electron, linac, injection, storage-ring	557
	W.A. Gillespie Dundee College of Technology, Dundee, Scotland E.A. Hughes, N. Marks SERC Daresbury Laboratory, Warrington, Cheshire, UK G. Saxon Private Address, Stockport, UK
TH3-53	Kharkov Electron Linac as Injector for Stretcher Ring	linac, impedance, controls, electron	576
	V.A. Vishnyakov, G.K. Demyanenko, A.N. Dovbnya, V.M. Kobezsky, V.B. Mufel, G.D. Pugachev, V.A. Shendrik Kharkov Institute of Physics and Technology, Kharkov, USSR