Paper |
Title |
Other Keywords |
Page |
MO2-01 |
Design and Initial Operation of the ETA-II Induction Accelerator
|
cathode, diagnostics, electron, controls |
19 |
|
- J. Clark, F. Coffield, F. Deadrick, M. Newton, W. Nexsen, D. Prono, D. Ravenscroft, A. Throop, W. Turner, K. Whitham
LLNL, Livermore, California, USA
|
|
MO3-08 |
A Flight-Qualified RFQ for the BEAR Project
|
rfq, cavity, alignment, dipole |
54 |
|
- D. Schrage, J. Billen, G. Bolme, B. Campbell, W. Clark, J. Devenport, S. Gibbs, M. Lynch, F. Martinez, P. O'Shea, J. Stovall, T. Wangler, L. Young
LANL, Los Alamos, New Mexico, USA
- J. Rathke, R. Micich, J. Rose
Grumman Space Systems, Bethpage, New York, USA
- R. Richter, G. Rosato
GAR Electroformers, Danbury, Connecticut, USA
|
|
MO3-13 |
The Cryring RFQ
|
rfq, ion, CRYRING, heavy-ion |
70 |
|
- A. Schempp, H. Deitinghoff, H. Klein
IAP, Frankfurt am Main, Germany
- C. Herrlander, A. Källberg, A. Soltan
Manne Siegbahn Institute of Physics, Stockholm, Sweden
|
|
MO3-19 |
Stripping with a Fomblin Supersonic Jet at 112.5 keV/Nucleon
|
injection, ion, background, heavy-ion |
88 |
|
- M. McMahan, B. Feinberg, D. Hubbard, S. Meaney
LBL, Berkeley, California, USA
|
|
MO3-20 |
CW Operation and Initial Beam Experiments with the RFQ1 Accelerator
|
rfq, proton, cavity, controls |
91 |
|
- G. Arbique, B. Chidley, G. McMichael, J. Sheikh
Atomic Energy of Canada, Chalk River, Ontario, Canada
|
|
MO3-21 |
Low Power RF Tuning of the RFQ1 Accelerator
|
rfq, quadrupole, coupling, dipole |
94 |
|
- R. Hutcheon, G. McMichael
Atomic Energy of Canada, Chalk River, Ontario, Canada
|
|
MO3-31 |
Design and Construction of a 425-MHz Cryogenic (20 K) Two-Cell DTL Sparker
|
cavity, cryogenics, DTL, beam-transport |
115 |
|
- N. Wilson, G. Bolme, K. Kalash
LANL, Los Alamos, New Mexico, USA
|
|
MO3-33 |
Studies of the Four-Rod RFQ Using the MAFIA Codes
|
rfq, light-ion, ion, beam-losses |
119 |
|
- M. Browman, T. Barts, P. Friedrichs, G. Spalek
LANL, Los Alamos, New Mexico, USA
|
|
MO3-41 |
An 805 MHz Disk and Washer Structure for the Fermilab Linac Upgrade
|
linac, coupling, cavity, resonance |
143 |
|
- A. Moretti, D. Young, G. Lee, F. Mills, P. Zhou
Fermilab, Batavia, Illinois, USA
- D. Swenson, P. Young
Science Applications International Corporation, McLean, Virginia, USA
|
|
MO3-45 |
Experiments Connected with Tuning of the Drift Tube Cavities Stabilized with Post Couplers
|
cavity, linac, ion, DIA |
158 |
|
- Ju. Bylinsky, S. Esin, A. Feschenko, P. Ostroumov, S. Zharylkapov
INR, Moscow, USSR
|
|
WE3-14 |
Design and Construction of the Photocathode Electron Gun Cavity
|
cavity, coupling, electron, cathode |
338 |
|
- E. Gray, J. Fraser
LANL, Los Alamos, New Mexico, USA
|
|
WE3-15 |
High-Brightness, High-Current-Density Cathode for Induction Linac FELs
|
cathode, brightness, electron, space-charge |
341 |
|
- W. Turner, Y.-J. Chen, W. Nexsen
LLNL, Livermore, California, USA
- M. Green, G. Miram, A. Nordquist
Varian Associates, Palo Alto, California, USA
|
|
WE3-18 |
Mechanical Design of a RF Electron Gun
|
gun, electron, cathode, cavity |
351 |
|
- M. Woodle, K. Batchelor, J. Sheehan
BNL, Upton, New York, USA
|
|
WE3-35 |
Does UHV Annealing above 1100C as a Final Surface Treatment Reduce Field Emission Loading in Superconducting Cavities?
|
cavity, diagnostics, electron, superconductivity |
397 |
|
- H. Padamsee, K. Gendreau, W. Hartung, J. Kirchgessner, D. Moffat, R. Noer, D. Rubin, J. Sears, Q. Shu
Cornell University, Ithaca, New York, USA
|
|
WE3-50 |
Progress of Electron Gun Systems for the e-/e+ Linac at KEK
|
gun, electron, positron, linac |
434 |
|
- S. Ohsawa, A. Asami, A. Enomoto, S. Fukuda, Y. Ogawa, Y. Otake, Y. Saito, M. Yokota
KEK, Ibaraki, Japan
- O. Azuma, H. Iwata
Sumitomo Heavy Industries Company, Ltd., Tokyo, Japan
|
|
TH3-12 |
Beam Delivery Systems for Industrial Accelerators
|
electron, quadrupole, controls, beam-transport |
553 |
|
- V. Mason, R. Davis
Atomic Energy of Canada, Chalk River, Ontario, Canada
|
|
TH3-13 |
Design and Fabrication Studies of High Gradient Accelerating Structures for the CERN Linear Collider (CLIC)
|
pick-up, ion, linac, damping |
556 |
|
- I. Wilson, W. Schnell, H. Henke
CERN, Geneva, Switzerland
|
|
TH3-33 |
A High-Power RF Efficient L-Band Linac Structure
|
cavity, coupling, impedance, linac |
608 |
|
- J.-P. Labrie, S. Alexander, R. Kelly
Atomic Energy of Canada, Chalk River, Ontario, Canada
|
|
TH3-35 |
Construction of a 35 MeV Double Sided Microtron ( DSM )
|
injection, linac, cavity, resonance |
614 |
|
- T. Tanaka, K. Hayakawa, K. Sato, O. Takeda, Y. Torizuka, K. Yoshida
Nihon University, Funabashi, Japan
|
|
TH3-41 |
RADLAC-II Upgrade Experiments
|
cathode, pulsed-power, electron, simulation |
628 |
|
- S. Shope, C. Frost, D. Hasti, G. Leifeste, M. Mazarakis, J. Poukey, D. Smith
Sandia National Laboratories, Albuquerque, New Mexico, USA
|
|
TH3-51 |
A Simple Beam Position Monitor System for CEBAF
|
pick-up, CEBAF, linac, cavity |
649 |
|
- W. Barry, R. Rossmanith, M. Wise
CEBAF, Newport News, Virginia, USA
|
|
TH3-53 |
The Disk and Washer Structure for Moscow Meson Factory Linac
|
coupling, linac, impedance, proton |
657 |
|
- S. Esin, L. Kravchuk, V. Paramonov, G. Romanov
INR, Moscow, USSR
|
|