| Paper |
Title |
Other Keywords |
Page |
| SRF84-1 |
Status of RF Superconductivity at Argonne National Laboratory
|
booster, heavy-ion, superconductivity, ion-source |
9 |
| |
- K. W. Shepard
ANL, Argonne
|
|
| SRF84-11 |
The Superconducting Separated Orbit Cyclotron Triton
|
cyclotron, focusing, extraction, injection |
183 |
| |
- U. Trinks
Technische Universität, München
|
|
| SRF84-12 |
Development of the Triton Cavities
|
heavy-ion, resonance, impedance |
189 |
| |
- L. Dietl
Technische Universität, München
|
|
| SRF84-13 |
Remarks on Low Beta Structures and Accelerators Using Lead Technology
|
booster, heavy-ion, impedance, controls |
195 |
| |
- J. R. Delayen
Applied Superconductivity, Inc., Altadena
- J. R. Delayen
California Institute of Technology, Low Temperature Physics, Pasadena
|
|
| SRF84-16 |
Status Report of the Petra 18-Cell Superconducting Cavity Experiment
|
vacuum |
235 |
| |
- D. Proch, B. Dwersteg, W. Ebeling, W. Flauger, W. D. Moeller, J. Peters, D. Renken, J. Susta
DESY, Hamburg
|
|
| SRF84-26 |
Surface Studies of Nb, its Compounds, and Coatings
|
electron, vacuum, synchrotron, superconductivity |
455 |
| |
- E. L. Garwin, R. E. Kirby
SLAC, Stanford
|
|
| SRF84-28 |
Clean Work and its Consequences - Contamination Control Considerations
|
controls, electron, vacuum, pick-up |
509 |
| |
- P. Kneisel
Cornell University, Ithaca
|
|
| SRF84-32 |
Development in Fabrication Methods
|
vacuum, RF-structure |
597 |
| |
|
|
| SRF84-34 |
Superconducting 500MHz Accelerating Copper Cavities Sputter - Coated with Niobium Films
|
cathode, electron, controls, insertion |
627 |
| |
- C. Benvenuti, N. Circelli, M. Hauer, W. Weingarten
CERN, Geneva
|
|
| SRF84-35 |
A15 Surfaces in Nb Cavities
|
electron, survey, controls, superconductivity |
643 |
| |
- G. Arnolds-Mayer
University of Wuppertal, Wuppertal
|
|