| Paper |
Title |
Other Keywords |
Page |
| MOA006 |
Operating Experience with Superconducting RF at CESR and Overview of Other SRF Related Activities at Cornell University
|
cavity, SRF, cryomodule, luminosity |
24 |
| |
- S. Belomestnykh, P. Barnes, E. Chojnacki, R. Ehrlich, R.L. Geng, D. Hartill, R. Kaplan, J. Knobloch, H. Padamsee, S. Peck, P. Quigley, J. Reilly, D. Rubin, D. Sabol, J. Sears, V. Veshcherevich, G. Werner
Cornell University, Ithaca, New York
|
|
| MOP001 |
Recent Status of the Superconducting Cavities for KEKB
|
cavity, KEK, KEKB, HOM |
31 |
| |
- T. Furuya, K. Akai, K. Hara, K. Hosoyama, A. Kabe, Y. Kojima, S. Mitsunobu, Y. Morita, H. Nakai, T. Tajima
KEK, Ibaraki
|
|
| MOP005 |
Status of the LANL Activities in the Field of RF Superconductivity
|
cavity, controls, LANL, superconducting-cavity |
46 |
| |
- F.L. Krawczyk, R. Bibeau, B. Campbell, D. Chan, M. Cola, K. Cummings, R. Edwards, G. Ellis, D.C. Gautier, R.C. Gentzlinger, J.G. Gioia, W.B. Haynes, D. Katonak, J.P. Kelley, R.E. Lujan, M.A. Madrid, R.R. Mitchell, D. Montoya, E. Newman, W. Roybal, E.N. Schmierer, A. Shapiro, B.G. Smith, R. Valicenti, J. Waynert
LANL, Los Alamos, New Mexico
- B. Rusnak, S. Shen
LLNL, Livermore, California
- R.P. Walsh
National High Magnetic Field Laboratory, Tallahassee, Florida
|
|
| MOP013 |
R&D on the Niobium-Copper Superconducting Cavity at Peking University
|
niobium, ion, heavy-ion, target |
70 |
| |
- R.L. Geng, J. Chen, J. Hao, S. Quan, Z. Shen, Y. Tang, L. Wang, D. Xie, B. Zhang, Kui Zhao, Kun Zhao
IHIP, Beijing
|
|
| TUA006A |
Mass Production of High Purity Niobium
|
niobium, cavity, TESLA, DESY |
96 |
| |
- B. Spaniol, U. Weitzel-Hoefler
W.C. Heraeus GmbH & Co, Hanau
|
|
| TUA006B |
How to Produce NbRRR~600 on an Industrial Scale
|
controls, extraction, niobium, electron |
100 |
| |
- F. Schoelz
W.C. Heraeus GmbH & Co, Hanau
|
|
| TUP003 |
Lead Plating: ANU SLRs Upgrade
|
cavity, electron, superconductivity, linac |
129 |
| |
- N.R. Lobanov, D.C. Weisser
ANU, Canberra
|
|
| TUP006 |
Flux-Gate Magnetometry: The Possibility to Apply a Novel Tool to Monitor Niobium Chemistry
|
niobium, cavity, monitoring, TESLA |
153 |
| |
- V. Palmieri, F. Stivanello
INFN/LNL, Legnaro, Padova
- M. Valentino
INFM, Napoli
|
|
| TUP007 |
New Aspects of Quality Control during Preparation of TTF 1.3 GHz Cavities
|
cavity, controls, niobium, TESLA |
159 |
| |
|
|
| TUP014 |
Low Temperature Tensile and Fracture Toughness Properties of SCRF Cavity Structural Materials
|
niobium, cavity, cryogenics, electron |
195 |
| |
- V.T. Toplosky, R.P. Walsh
National High Magnetic Field Laboratory, Tallahassee, Florida
- R.C. Gentzlinger, R.R. Mitchell
LANL, Los Alamos, New Mexico
|
|
| TUP018 |
Improvement of the Maximum Field of Accelerating Cavities by Dry Oxidization
|
cavity, niobium, electron, superconductivity |
211 |
| |
- R. Parodi, R. Ballantini, A. Daccà, G. Gemme
INFN Genova, Genova
- L. Mattera
INFM Genova, Genova
|
|
| TUP027 |
Modal Survey of Medium Energy Superconducting Radio Frequency Cavity for Accelerator Production of Tritium Project
|
cavity, damping, survey, cryomodule |
258 |
| |
- G. Ellis, B.G. Smith
LANL, Los Alamos, New Mexico
|
|
| TUP028 |
Kapitza Conductance and Thermal Conductivity of Materials used for SRF Cavities Fabrication
|
cavity, niobium, SRF, radiation |
263 |
| |
- M. Fouaidy, S. Bousson, N. Hammoudi, T. Junquera, J.C. Le Scornet, J. Lesrel
IN2P3-CNRS, Orsay
|
|
| TUP030 |
Long Term Air Exposure Effect on the Electropolished Surface of Niobium Superconducting RF Cavity
|
cavity, niobium, KEK, electron |
270 |
| |
- K. Saito, E. Kako, T. Shishido, S. Noguchi, M. Ono, Y. Yamazaki
KEK, Ibaraki
|
|
| TUP031 |
Temperature Dependence of the Surface Resistance of Niobium at 1300 MHz - Comparison to BCS Theory -
|
cavity, niobium, KEK, electron |
277 |
| |
- K. Saito
KEK, Ibaraki
- P. Kneisel
JLAB, Newport News
|
|
| TUP032 |
Discovery of the Needless of Outgas Annealing after Horizontally Continuously Rotated Electropolishing with Niobium Superconducting RF Cavities
|
cavity, niobium, KEK, JAERI |
283 |
| |
- K. Saito, E. Kako, S. Noguchi, M. Ono, T. Shishido, Y. Yamazaki
KEK, Ibaraki
- T. Higuchi
Nomura Plating Co. Ltd., Tochigi-ken
|
|
| TUP034 |
Effect of N2 Gas Exposure on the L-band Superconducting Cavity
|
cavity, superconducting-cavity, KEK, ion |
292 |
| |
- Y. Kijima, H. Kitamura, Y. Murai
Mitsubishi Electric Corporation, Kobe
- E. Kako, S. Noguchi, M. Ono, K. Saito, T. Shishido
KEK, Ibaraki
|
|
| TUP036 |
On Local High Electric Field-Induced Modifications of a Niobium Oxide Surface
|
niobium, cavity, electron, superconductivity |
304 |
| |
- I. Arfaoui, J. Cousty, H. Safa
CEA-Saclay, Gif-sur-Yvette
|
|
| TUP040 |
Non-uniformities in Hydrogen and Oxygen Concentration in Niobium Films
|
niobium, cavity, ion, superconductivity |
312 |
| |
- W.R. Frisken
York University, Toronto
- L.N. Hand
Cornell University, Ithaca
|
|
| WEP001 |
Completion of the First Superconducting RFQ at INFN-LNL
|
rfq, cavity, niobium, linac |
367 |
| |
- G. Bisoffi, V. Andreev, G.P. Bezzon, F. Chiurlotto, A. Lombardi, V. Palmieri, A.M. Porcellato, S.Y. Stark
INFN/LNL, Legnaro, Padova
- E. Chiaveri
CERN, Geneva
|
|
| WEP008 |
Modeling Secondary Emission in a Finite-Element Multipactor Code
|
electron, simulation, cavity, multipactoring |
390 |
| |
- S. Humphries
University of New Mexico, Albuquerque
- J. Petillo
SAIC, Burlington, Massachusetts
- N. Dionne
Raytheon Corporation, Sudbury, Massachusetts
|
|
| WEP013 |
Structural Analysis of the APT Superconducting Cavities
|
cavity, niobium, LANL, cryogenics |
405 |
| |
- R.R. Mitchell, M. Cola, G. Ellis, R.C. Gentzlinger
LANL, Los Alamos, New Mexico
|
|
| WEP014 |
Beta Tunable 700 MHz Insert with Natural Convection Precooling
|
cavity, simulation, niobium, linac |
422 |
| |
- D. Barni, C. Gesmundo, C. Pagani, G. Varisco
INFN Milano, Milano
|
|
| WEP015 |
Design and Test of a 1.3 GHz Travelling Wave Window
|
electron, TESLA, cavity, pick-up |
427 |
| |
- C. Travier, S. Chel, M. Desmons, G. Devanz
CEA-Saclay, Gif-sur-Yvette
- P. Lepercq, T. Garvey
IN2P3-CNRS, Orsay
|
|
| WEP021 |
APT Cryomodule Assembly and the Usefulness of the Mockup Model
|
cavity, cryomodule, CERN, shielding |
459 |
| |
- E. Newman, B. Campbell, K.C.D. Chan, R. Valicenti
LANL, Los Alamos, New Mexico
|
|
| WEP025 |
CRYHOLAB, A New Horizontal Test Cryostat for SCRF Cavities
|
cavity, radiation, cryogenics, TESLA |
478 |
| |
- H. Saugnac, P. Blache, C. Commeaux, G. Guillier, T. Junquera, D. Braud, H. Safa
IN2P3-CNRS, Orsay
- P. Sahuquet
CEA-Saclay, Gif-sur-Yvette
|
|
| WEP032 |
High Power Input Coupler for KEKB SC Cavity
|
cavity, KEK, KEKB, superconducting-cavity |
505 |
| |
- S. Mitsunobu, T. Furuya, T. Tajima
KEK, Ibaraki
- T. Kijima
Mitsubishi Electric Corporation, Kobe
- T. Tanaka
Furukawa Electric Co, Tokyo
|
|
| THA006 |
RF Power Coupler Performance at CESR and Study of a Multipactor Inhibited Coupler
|
cavity, SRF, multipactoring, electron |
560 |
| |
- E. Chojnacki, S. Belomestnykh
Cornell University, Ithaca, New York
|
|
| THA008 |
The Variable Power Coupler for the LHC Superconducting Cavities
|
cavity, LHC, multipactoring, impedance |
566 |
| |
- H.P. Kindermann, M. Stirbet
CERN, Geneva
|
|
| THA009 |
Testing Status of the Superconducting RF Power Coupler for the APT Accelerator
|
cavity, cryomodule, ion, controls |
570 |
| |
- W.B. Haynes, K.C.D. Chan, D.C. Gautier, J.G. Gioia, F.L. Krawczyk, R.E. Lujan, M.A. Madrid, E.N. Schmierer
LANL, Los Alamos, New Mexico
- B. Rusnak
LLNL, Livermore
|
|
| THA010 |
High Power Coupler for the TESLA Test Facility
|
cavity, TESLA, TTF, TTF2 |
577 |
| |
- W.-D. Möller
DESY, Hamburg
|
|