| Paper |
Title |
Other Keywords |
Page |
| SRF93D04 |
High - Tc Materials for Microwave Applications: Update, Progress, and Trends
|
cavity, impedance, superconductivity, niobium |
307 |
| |
- C. Liang
CEBAF, Newport News, Virginia
|
|
| SRF93G01 |
The TESLA Cavity: Design Considerations and RF Properties
|
cavity, HOM, TESLA, dipole |
382 |
| |
|
|
| SRF93I26 |
A New Limit to the Maximum RF Magnetic Field for Niobium
|
cavity, niobium, DESY, simulation |
794 |
| |
- J. Graber, N. Black, H. Padamsee, M. Pekeler
Cornell University, Ithaca
|
|
| SRF93I41 |
Study of Superconducting Films for Accelerating Cavity Applications by a Microstrip Resonator Technique
|
cavity, CERN, impedance, DESY |
993 |
| |
- R. Vaglio, A. Andreone, A. Cassinese, A. DiChiara
Università di Napoli Frederico II, Napoli
- C. Attanasio, L. Maritato
Università di Salerno, Salerno
|
|
| SRF93I48 |
Development of Im+E61proved Lead-Copper Split-Loop Resonators for the Stony Brook Heavy-Ion Linac
|
linac, FEL, pick-up, heavy-ion |
1052 |
| |
- J.W. Noé, J. Rico, H. Uto, T. Wada
SUNY, Stony Brook, New York
|
|
| SRF93I54 |
Fundamentally Fastest Method Measuring Q0(Eacc) - Performance of SC Cavities
|
cavity, acceleration, superconductivity, CERN |
1118 |
| |
- D. Reschke, R.W. Röth
University of Wuppertal, Wuppertal
|
|
| SRF93J06 |
The Booster Linac for the New Delhi Pelletron
|
cavity, linac, niobium, booster |
1184 |
| |
- P.N. Potukuchi, B.P. Ajith Kumar, T. Changrani, S. Ghosh, G.K. Mehta, R. Mehta, S. Murlidhar, A. Roy, A. Sarkar
Nuclear Science Centre, New Delhi
- K.W. Shepard
ANL, Argonne
|
|