| Paper |
Title |
Other Keywords |
Page |
| SRF93A06 |
Status of the RF Superconductivity at CERN
|
cavity, HOM, LEP, vacuum |
49 |
| |
- G. Cavallari, C. Arnaud, M. Barranco-Luque, C. Benvenuti, Ph. Bernard, D. Bloess, D. Boussard, P. Brown, S. Calatroni, E. Chiaveri, E. Ciapala, G. Geschonke, D. Güsewell, E. Haebel, N. Hilleret, G. Orlandi, G. Passardi, E. Peschardt, V. Rödel, T. Schiller, M. Taufer, J. Tückmantel, J. Uythoven, W. Weingarten
CERN, Geneva
|
|
| SRF93A09 |
The INFN-CERN Collaboration on RF Superconductivity: An Overview on the Main Activities of the Collaboration
|
cavity, niobium, laser, impedance |
99 |
| |
- R. Parodi
INFN Genova, Genova
|
|
| SRF93B01 |
RF SC Activities at Frascati INFN Laboratories
|
cavity, cathode, electron, TESLA |
106 |
| |
- F. Tazzioli, M. Castellano, M. Ferrario, S. Kulinski, M. Minestrini, P. Patteri
INFN/LNF, Frascati (Roma)
- L. Catani, S. Tazzari
INFN-Roma II, Roma
|
|
| SRF93H03 |
Review of Various Approaches and Successes for High Gradients and Q's for TESLA
|
cavity, TESLA, CEBAF, site |
515 |
| |
- H. Padamsee
Cornell University, Ithaca
|
|
| SRF93I01 |
Performance of Nb-Coated 150 MHz QWR Crippled by Electron-Stimulated Desorption
|
cathode, niobium, electron, vacuum |
542 |
| |
- D.C. Weisser, M. Malev
Australian National University, Canberra
|
|
| SRF93I14 |
Progress on the Industrial Production of SC Cavities at CERCA
|
cavity, LEP, TESLA, superconducting-cavity |
670 |
| |
- P. Maccioni, J.L. Boutes
CERCA, Romans-Sur-Isère
|
|
| SRF93I15 |
Niobium Coatings for 1.5 GHz RF Cavities
|
cathode, cavity, LEP, niobium |
676 |
| |
- C. Benvenuti, S. Calatroni, M. Hauer, G. Orlandi, F. Scalambrin
CERN, Geneva
|
|
| SRF93I16 |
Influence of Copper Substrate Treatments on Properties of Niobium Coatings
|
cavity, niobium, LEP, electron |
687 |
| |
- S. Calatroni, J.P. Bacher, C. Benvenuti, R. Cosso, J.M. Dalin, J. Guérin, D. Lacarrère, A. Lasserre, G. Orlandi, E. Radicioni, F. Scalambrin, M. Taufer
CERN, Geneva
|
|
| SRF93I17 |
First Operational Experience in Running a New 6 kW Cryoplant Cooling Superconducting Cavities in LEP at 4.5 K
|
cavity, LEP, controls, cryogenics |
696 |
| |
- Ph. Gayet, M. Barranco-Luque, W.K. Erdt, P.K. Frandsen, D. Güsewell, N.O. Solheim, G. Winkler
CERN, Geneva
|
|
| SRF93I18 |
An Instrument for Internal Surface Analysis of LEP 200 Superconducting Radiofrequency Cavities
|
cavity, electron, vacuum, radio-frequency |
702 |
| |
- D. Lacarrère, C. Benvenuti, R. Cosso, G. Foffano, J. Genest, M. Hauer, D. Jegou, D. Latorre, I. Magnani, A. Rijllart, R. Saban, F. Scalambrin
CERN, Geneva
|
|
| SRF93I22 |
Industrial Production of Superconducting Niobium Sputter Coated Copper Cavities for LEP
|
cavity, niobium, electron, LEP |
746 |
| |
- W. Weingarten, E. Chiaveri
CERN, Geneva
|
|
| SRF93I41 |
Study of Superconducting Films for Accelerating Cavity Applications by a Microstrip Resonator Technique
|
cavity, impedance, DESY, coupling |
993 |
| |
- R. Vaglio, A. Andreone, A. Cassinese, A. DiChiara
Università di Napoli Frederico II, Napoli
- C. Attanasio, L. Maritato
Università di Salerno, Salerno
|
|
| SRF93I49 |
Evolution of the RF Systems Layout for the SSC Collider Rings
|
cavity, collider, klystron, superconducting-cavity |
1065 |
| |
- G. Schaffer
Superconducting Supercollider Laboratory, Dallas
|
|
| SRF93I50 |
Superconducting Billiard Cavities - a Non-Accelerator Application of RF Superconductivity
|
cavity, resonance, superconductivity, DESY |
1079 |
| |
- P. Schardt, H. Alt, H.-D. Gräf, R. Hofferbert, A. Richter
TH Darmstadt, Darmstadt
- H.L. Harney, C.H. Lewenkopf, H.A. Weidenmüller
Maz-Planck-Institut für Kernphysik, Heidelberg
- H. Lengeler
CERN, Geneva
- C. Rangacharyulu
University of Saskatchewan, Saskatchewan
|
|
| SRF93I54 |
Fundamentally Fastest Method Measuring Q0(Eacc) - Performance of SC Cavities
|
cavity, acceleration, coupling, superconductivity |
1118 |
| |
- D. Reschke, R.W. Röth
University of Wuppertal, Wuppertal
|
|