| Paper |
Title |
Other Keywords |
Page |
| MO3-1 |
Operational Experience with SLAC Energy Upgrade
|
klystron, cathode, controls, 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
|
|
| MO3-16 |
Beam Dynamics, Efficiency and Power of the SLAC Lasertron - Simulation Results
|
cavity, simulation, electron, cathode |
81 |
| |
- J.J. Welch
SLAC, Stanford, California, USA
|
|
| MO3-17 |
The Maximum Efficiency of a Conventional Klystron Output Cavity
|
cavity, electron, simulation, klystron |
85 |
| |
- J.J. Welch
SLAC, Stanford, California, USA
|
|
| MO3-18 |
Collector Material Desorption Tests
|
vacuum, electron, cathode, gun |
87 |
| |
- J.J. Welch, C.K. Sinclair
SLAC, Stanford, California, USA
|
|
| MO3-28 |
High Power Pulsed Klystron for Linacs
|
klystron, gun, linac, 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, klystron, simulation |
109 |
| |
- K.R. Eppley, W.B. Herrmannsfeldt, T.G. Lee
SLAC, Stanford, California, USA
|
|
| MO3-48 |
Unified Formulation for Linear Accelerator Design
|
coupling, vacuum, niobium, single-bunch |
160 |
| |
- Z.D. Farkas
SLAC, Stanford, California, USA
|
|
| MO3-49 |
New Concepts in Microwave Sources for e+e- Supercolliders
|
electron, cavity, klystron, linac |
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, cavity, klystron, coupling |
200 |
| |
- R.H. Miller
SLAC, Stanford, California, USA
|
|
| WE3-18 |
Modes in Infinitely Repeating Structures of Cylindrical Symmetry
|
cavity, DESY, impedance, linac |
292 |
| |
- T. Weiland
DESY, Hamburg, Germany
|
|
| TH1-1 |
The Two-Beam Accelerator
|
FEL, electron, laser, induction |
385 |
| |
- A.M. Sessler, D.B. Hopkins
LBL, Berkeley, California, USA
|
|
| TH3-11 |
Voltage Breakdown at X-Band and C-Band Frequencies
|
cavity, vacuum, ion, rfq |
458 |
| |
- E. Tanabe
Varian Associates Inc., Palo Alto, California, USA
- G.A. Loew, J.W. Wang
SLAC, Stanford, California, USA
|
|
| TH3-12 |
RF Breakdown Studies in a SLAC Disk-Loaded Structure
|
electron, cavity, radiation, scattering |
461 |
| |
- J.W. Wang, G.A. Loew, V. Nguyen-Tuong
SLAC, Stanford, California, USA
|
|
| TH3-16 |
Beam-Beam Deflections as an Interaction Point Diagnostic for the SLC
|
extraction, target, feedback, collider |
475 |
| |
- P. Bambade, R. Erickson
SLAC, Stanford, California, USA
|
|
| TH3-17 |
Beamstrahlung Monitor for SLC Final Focus Using Gamma Ray Energies
|
radiation, electron, synchrotron, synchrotron-radiation |
478 |
| |
- G. Bonvicini
University of Michigan, Ann Arbor, Michigan, USA
- A. Minten
CERN, Geneva, Switzerland
- C. Field
SLAC, Stanford, California, USA
|
|
| TH3-40 |
Cumulative Beam Breakup with a Distribution of Deflecting Mode Frequencies
|
cavity, simulation, linac, CEBAF |
540 |
| |
- R.L. Gluckstern, F. Neri
University of Maryland, College Park, Maryland, USA
- R.K. Cooper
LANL, Los Alamos, New Mexico, USA
|
|
| TH3-52 |
Studies of Electron Linac Beam Postacceleration in a Chain of Passive Cavity Structures
|
cavity, linac, electron, accelerating-gradient |
573 |
| |
- G.L. Fursov, V.A. Kushnir, V.P. Romas'ko, A.M. Shenderovich, V.A. Vishnyakov, V.V. Zakutin
Kharkov Institute of Physics and Technology, Kharkov, USSR
|
|
| FR1-1 |
Future e+e- Linear Colliders and Beam-Beam Effects
|
collider, luminosity, linac, electron |
585 |
| |
- P.B. Wilson
SLAC, Stanford, California, USA
|
|
| FR2-1 |
Collider Constraints in the Choices for Wavelength and Gradient Scaling
|
collider, electron, linear-collider, emittance |
599 |
| |
- J.D. Lawson
RAL, Didcot, Oxfordshire, UK
|
|