| Paper |
Title |
Other Keywords |
Page |
| MO3-19 |
Boiling Heat Transfer Process in the Design of High Power Linac Structures
|
linac, cavity, impedance |
90 |
| |
- T. Tran Ngoc, J.-P. Labrie
Atomic Energy of Canada, Chalk River, Ontario, Canada
|
|
| MO3-26 |
Cryogenic Studies of RF Accelerating Structures, Vintage 1978
|
cavity, resonance, vacuum, cryogenics |
104 |
| |
- D.J. Liska, J. Potter, J. Uher
LANL, Los Alamos, New Mexico, USA
|
|
| MO3-36 |
Fabrication and Tuning Techniques for Side-Coupled Electron Accelerator Structures
|
cavity, electron, FEL, microtron |
128 |
| |
- L.D. Hansborough, W.L. Clark, R.A. DePaula, F.A. Martinez, P.L. Roybal, L.C. Wilkerson, L.M. Young
LANL, Los Alamos, New Mexico, USA
|
|
| MO3-44 |
Post Coupler Studies for Alvarez Tanks
|
DTL, resonance, cavity, impedance |
148 |
| |
- M. Sawamura, Y. Iwashita, H. Takekoshi
Kyoto University, Kyoto, Japan
|
|
| MO3-45 |
Q Value of DAW Linac with Biperiodic T Stem
|
cavity, impedance, linac, vacuum |
151 |
| |
- Y. Iwashita, S. Abe, H. Takekoshi
Kyoto University, Kyoto, Japan
|
|
| MO3-46 |
Multiple-Measurement Beam Probe
|
impedance, SMA, linac, controls |
154 |
| |
- J.D. Gilpatrick, D.L. Grant
LANL, Los Alamos, New Mexico, USA
|
|
| MO3-48 |
Unified Formulation for Linear Accelerator Design
|
SLAC, vacuum, niobium, single-bunch |
160 |
| |
- Z.D. Farkas
SLAC, Stanford, California, USA
|
|
| TU2-4 |
Comparison of Standing-Wave and Traveling-Wave Structures
|
impedance, SLAC, cavity, klystron |
200 |
| |
- R.H. Miller
SLAC, Stanford, California, USA
|
|
| WE3-4 |
Field Stabilisation with Resonant Line Couplers
|
rfq, cavity, dipole, ion |
251 |
| |
- A. Schempp
Universität Frankfurt, Frankfurt-am-Main, Germany
|
|
| WE3-14 |
Three-Dimensional Cavity Calculations
|
cavity, impedance, RF-structure, DESY |
279 |
| |
- M.J. Browman, R.K. Cooper
LANL, Los Alamos, New Mexico, USA
- T. Weiland
DESY, Hamburg, Germany
|
|
| TH3-7 |
Industrial Development of Cornell Superconducting Cavities for CEBAF
|
cavity, CEBAF, HOM, vacuum |
444 |
| |
- W. Bensiek, G. Garner, J. Hager
Babcock & Wilcox, Lynchburg, Virginia, USA
- G. Biallas, A. Chargin, B. Moss, J. Parkinson
CEBAF, Newport News, Virginia, USA
- J. Amato, J. Brawley, D. Coulombe, A. Heidt, S. Herb, J. Kirchgessner, D. Morse, K. Nakajima, H. Padamsee, F. Palmer, H.L. Phillips, C. Reece, R. Sundelin, M. Tigner
Cornell University, Ithaca, New York, USA
- K. Schulz
Dornier System GmbH, Friedrichshafen, Germany
- U. Klein, A. Palussek, H.P. Vogel
Interatom GmbH, Bergisch Gladbach, Germany
- E. Conner, S. Loer, P. Weller
TRW, Redondo Beach, California, USA
- R. Fleck, Th. Grundey, H. Heinrichs, D. Huppelsberg, A. Matheisen, M. Peiniger, H. Piel, R. Roeth
University of Wuppertal, Wuppertal, Germany
|
|
| TH3-10 |
An X-Band Coaxial Standing-Wave Linear Accelerator Structure
|
cavity, impedance, focusing, electron |
455 |
| |
- E. Tanabe, M. Bayer, S.D. Ireton, G. Kalkanis
Varian Associates Inc., Palo Alto, California, USA
|
|
| TH3-24 |
Radiation of a Charge in a Perfectly Conducting Cylindrical Pipe with a Jump in its Cross Section
|
impedance, radiation, electromagnetic-fields, CERN |
493 |
| |
- S.A. Kheifets
SLAC, Stanford, California, USA
- S.A. Heifets
University of Houston, Houston, Texas, USA
|
|
| TH3-29 |
Experiences in Fabricating and Testing the RF-Sections of the Mainz Microtron
|
MAMI, cavity, vacuum, microtron |
508 |
| |
- H. Euteneuer, H. Schöler
Johannes Gutenberg-Universität, Mainz, Germany
|
|
| TH3-34 |
Field Computations and Measurements on a Biperiodic Buncher Structure
|
cavity, simulation, gun, electron |
523 |
| |
- F. Tazzioli, B. Spataro
INFN/LNF, Frascati (Roma), Italy
- P. Fernandes
IMA-CNR, Genova, Italy
- R. Parodi
INFN-Genova, Genova, Italy
- D. Tronc
Thomson-CGR MeV, Buc, France
|
|