| Paper |
Title |
Other Keywords |
Page |
| MOO02 |
Theoretical Critical Field in RF Application
|
niobium, cavity, superconductivity, KEK |
1 |
| |
|
|
|
Slides
|
|
| MOP04 |
Superconducting RF Activities at the IPN Orsay Laboratory
|
cavity, proton, EURISOL, ion |
37 |
| |
- T. Junquera
IN2P3-CNRS, Orsay
|
|
| MOP09 |
SRF Activities at INFN-Genoa
|
cavity, CERN, niobium, electron |
48 |
| |
- R. Parodi, R. Ballantini, A. Chincarini, S. Cuneo, G. Gemme, A. Podesta
INFN Genova, Genova
|
|
| MOP12 |
Surface Superconductivity of Niobium: Onset of Long-Range Coherence
|
DESY, cavity, superconductivity, superconducting-cavity |
60 |
| |
- L. von Sawilski, S. Casalbuoni, J. Kötzler
IAP, Hamburg
|
|
| MOP15 |
Near-Surface Composition of Electropolished Niobium by Variable Photon Energy XPS
|
photon, niobium, background, cavity |
63 |
| |
- A.M. Valente
JLAB, Newport News
- H. Tian, M.J. Kelley
The College of William & Mary, Williamsburg
- C. McGuinness, P.A. Glans, K.E. Smith
Boston University, Boston
|
|
| MOP37 |
Installation, Commissioning and Test Results of Superconducting RF Modules for Light Sources and Electron Storage Rings
|
cavity, cryogenics, controls, vacuum |
128 |
| |
- M. Pekeler, S. Bauer, B. Griep, M. Peiniger, P. vom Stein, H. Vogel
ACCEL, Bergisch Gladbach
- S. Belomestnykh, H. Padamsee, P. Quigley, J. Sears
Cornell University, Ithaca, New York
|
|
| TUO07 |
Status Review of Superconducting RF Photo-Injectors
|
cavity, gun, cathode, laser |
244 |
| |
- J. Teichert, H. Büttig, P. Evtushenko, D. Janssen, U. Lehnert, P. Michel, Ch. Schneider
FZD, Dresden
|
|
|
|
Slides
|
|
| TUP13 |
Continuous Current Oscillation Electropolishing and Applications to Half-Cells
|
niobium, cavity, cathode, LANL |
311 |
| |
- R.L. Geng, A. Crawford, G. Eremeev, H. Padamsee
Cornell University, Ithaca, New York
|
|
| TUP44 |
Mechanical Design and Engineering of the 3.9 GHz 3rd Harmonic SRF System at Fermilab
|
cavity, HOM, niobium, DESY |
432 |
| |
- D. Mitchell, M. Foley, T. Khabiboulline, N. Solyak
Fermilab, Batavia
|
|
| TUP47 |
BCP Processing Facility
|
cavity, controls, niobium, superconducting-RF |
447 |
| |
- Y. Tereshkin, C. Boffo, G. Davis, H. Edwards, A. Rowe
Fermilab, Batavia
|
|
| TUT01 |
Low and Intermediate Beta Cavity Design
|
cavity, impedance, ion, linac |
486 |
| |
- J.R. Delayen
JLAB, Newport News
|
|
|
|
Slides
|
|
| TUT02 |
RF Power and HOM Coupler Tutorial
|
cavity, HOM, vacuum, cryogenics |
496 |
| |
- B. Rusnak
LLNL, Livermore, California
|
|
|
|
Slides
|
|
| WEO14 |
Effect of Low Temperature Baking on Niobium Cavities
|
cavity, niobium, electron, superconducting-cavity |
562 |
| |
- G. Ciovati, P. Kneisel, G. Myneni
JLAB, Newport News
- W.A. Lanford
SUNY Albany, Albany, New York
|
|
|
|
Slides
|
|
| THP06 |
Wet Oxidation of an Epitaxial Niobium Film
|
niobium, ion, lattice, cavity |
599 |
| |
- W.R. Frisken
York University, Toronto
- L.N. Hand
Cornell University, Ithaca, New York
|
|
| THP13 |
Surface Science Laboratory for Studying the Surfaces of Superconducting Radio Frequency Cavities
|
cavity, vacuum, electron, niobium |
622 |
| |
- A.T. Wu
JLAB, Newport News
|
|
| THP23 |
Characterization of Piezoelectric Actuators Used for SRF Cavities Active Tuning at Low Temperature
|
cavity, linac, vacuum, proton |
669 |
| |
- M. Fouaidy, N. Hammoudi
IPN, Orsay
|
|
| THWG1 |
Q Drop at High Gradient, Prospect of Higher Q for CW, Critical RF SC Field
|
cavity, niobium, superconductivity, superconducting-cavity |
736 |
| |
|
|
| THWG3 |
RF Coupler Working Group Report
|
cavity, vacuum, cryomodule, HOM |
744 |
| |
- B. Rusnak
LLNL, Livermore, California
- F.L. Krawczyk
LANL, Los Alamos, New Mexico
- W.-D. Möller
DESY, Hamburg
|
|