Paper |
Title |
Other Keywords |
Page |
MOPA005 |
R&D towards Cooling of the RHIC Collider |
beam-transport, electron cooling, energy-recovery, photoinjector |
39 |
|
- I. Ben-Zvi, J.M. Brennan, A. Burrill, R. Calaga, X. Chang, M. Christoph, G. Citver, A. Fedotov, H. Hahn, M. Harrison, A. Hershcovitch, A. Jain, J. Kewisch, W.W. MacKay, G. McIntyre, D. Pate, S. Peggs, J. Rank, T. Roser, J. Scaduto, T. Srinivasan-Rao, D. Trbojevic, D. Wang, A. Zaltsman, Y. Zhao (BNL)
|
|
MOPB010 |
Design, Construction and Status of an All Niobium Superconducting Photoinjector at BNL |
cw, laser, photoinjector, rf cavities |
92 |
|
- T. Srinivasan-Rao, I. Ben-Zvi, A. Burrill, G. Citver, A. Hershcovitch, D. Pate, A. Reuter, J. Scaduto, Q. Zhao, Y. Zhao (BNL), H. Bluem, M. Cole, A. Favale, J.W. Rathke, T.J. Schultheiss (Advanced Energy Systems), J. Delayen, P. Kneisel (Thomas Jefferson National Accelerator Facility)
|
|
MPPB075 |
High-Power Electron Beam Injectors for 100 kW Free-Electron Lasers |
free-electron-laser, photoinjector |
977 |
|
- A. Todd, H. Bluem, V. Christina, M. Cole, J.W. Rathke, T.J. Schultheiss (Advanced Energy Systems), P. Colestock, J.P. Kelley, S. Kurennoy, D. Nguyen, S. Russell, D.L. Schrage, R.L. Wood, L.M. Young (LANL), I. Campisi, E. Daly, D. Douglas, G.R. Neil, J. Preble, R.A. Rimmer, C.H. Rode, J. Sekutowicz, T. Whitlatch, M. Wiseman (Thomas Jefferson National Accelerator Facility)
|
|
MPPB076 |
The MIT Bates X-Ray Laser Project |
bunch compression, free-electron-laser, laser, undulator |
980 |
|
- T. Zwart, M. Farkhondeh, W.S. Graves, F.X. Kaertner, R. Milner, D.E. Moncton, C. Tschalaer, F. Wang, A. Zolfaghari, J.B. van der Laan (MIT-Bates)
|
|
MPPB081 |
Determination of Low Level RF Control Requirements for Superconducting Cavities from Microphonics Measurements |
controls, microphonics, rf cavities |
992 |
|
- J. Delayen, L. Harwood (Thomas Jefferson National Accelerator Facility)
|
|
MPPG035 |
Analysis of the HOM Damping with Modulated Beam in the First Prototype of Superstructure |
higher-order-mode, linear-collider |
1086 |
|
- P. Castro, A. Gössel, S. Schreiber, M. Wendt (DESY), G. Devanz (CE Saclay), N. Baboi (SLAC), J. Sekutowicz (Thomas Jefferson National Accelerator Facility)
|
|
TOAC003 |
A Recirculating Linac-Based Facility for Ultrafast X-Ray Science |
femtosecond, light source, linac, recirculation |
186 |
|
- J. Corlett, W.A. Barletta, S. De Santis, L. Doolittle, W. Fawley, M.A. Green, P. Heimann, S. Leone, D. Li, S.M. Lidia, A. Ratti, K. Robinson, R. Schoenlein, J. Staples, W. Wan, R.P. Wells, A. Wolski, A. Zholents (LBNL), M. Placidi (CERN), W. Pirkl (Consultant), S.-H. Wang (Indiana University), F. Parmigiani (Sincrotrone Trieste), R.A. Rimmer (Thomas Jefferson National Accelerator Facility)
|
|
TOAC005 |
The Cornell ERL Prototype Project |
energy-recovery, light source |
192 |
|
- C.K. Sinclair, B. Barstow, I. Bazarov, S. Belomestnykh, D. Bilderback, S. Gruner, G.H. Hoffstaetter, M. Liepe, H. Padamsee, D. Sagan, V. Shemelin, R. Talman, M. Tigner, V. Veshcherevich (Cornell University), G.A. Kraft, L. Merminga (Thomas Jefferson National Accelerator Facility)
|
|
TOAC006 |
CEBAF Energy Recovery Experiment |
beam-transport, deceleration, electron, energy-recovery |
195 |
|
- A. Bogacz, K. Beard, J. Bengtsson, C. Butler, Y. Chao, S. Chattopadhyay, H. Dong, D. Douglas, A. Freyberger, A. Guerra, R. Hicks, A. Hofler, C. Hovater, A. Hutton, R. Lauze, L. Merminga, T. Plawski, Y. Roblin, M. Spata, C. Tennant, M. Tiefenback (Thomas Jefferson National Accelerator Facility), A. Bernard (Friedrich-Alexander University), H. Toyokawa (National Institute of Advanced Industrial Science and Technology)
|
|
TPAE011 |
Analytical Design of a Waveguide Iris/Stub Tuning Coupler to an Overcoupled Superconducting Cavity |
RF coupler, waveguide |
1101 |
|
- H. Wang (Thomas Jefferson National Accelerator Facility)
|
|
TPAE019 |
Development of an 805-MHz, 550 kW Pulsed Klystron for the Spallation Neutron Source |
accelerator, klystron, linac |
1122 |
|
- S. Lenci, E. Eisen, B. Stockwell (Communications and Power Industries, Inc.)
|
|
TPAB009 |
Input Coupler for ERL Injector Cavities |
RF coupler |
1201 |
|
- V. Veshcherevich, I. Bazarov, S. Belomestnykh, M. Liepe, H. Padamsee, V. Shemelin (Cornell University)
|
|
TPAB014 |
Development of the Third Harmonic Cavity at Fermilab |
|
1213 |
|
- N. Solyak, H. Edwards, M. Foley, I. Gonin, T. Khabiboulline, D. Mitchell, J. Reid, L. Simmons (FNAL)
|
|
TPAB043 |
Microphonics Measurements in SRF Cavities for RIA |
microphonics, rf cavities |
1291 |
|
- M.P. Kelly, J.D. Fuerst, M. Kedzie, S.I. Sharamentov, K.W. Shepard (ANL), J. Delayen (Thomas Jefferson National Accelerator Facility)
|
|
TPAB044 |
Superconducting 345 MHz Two-Spoke Cavity for RIA |
heavy-ion, ion, linac, radioactive beams |
1294 |
|
- K.W. Shepard, J.D. Fuerst, M. Kedzie, M.P. Kelly (ANL), E. Peterson (Advanced Energy Systems)
|
|
TPAB045 |
Superconducting Intermediate-Velocity Cavity Development for RIA |
heavy-ion, ion, linac, radioactive beams |
1297 |
|
- K.W. Shepard, J.D. Fuerst, M. Kedzie, M.P. Kelly (ANL)
|
|
TPAB046 |
Design of a Superconducting Linac Cavity for High-Current Energy Recovery Linac Operation |
cw, electron cooling, energy-recovery, higher-order-mode |
1300 |
|
- D. Wang, I. Ben-Zvi, X. Chang, J. Kewisch, C. Montag, Y. Zhao (BNL), J. Sekutowicz (DESY), C. Pagani, P. Pierini (INFN)
|
|
TPAB047 |
Experimental Results on 700 MHz Multicell Superconducting Cavity for Proton Linac |
accelerator, linac, proton, rf cavities |
1303 |
|
- B. Visentin, A. Aspart, D. Braud, J.P. Charrier, Y. Gasser, E. Jacques, J.P. Poupeau, D. Roudier, P. Sahuquet, F. Simoens (CE Saclay), J.L. Biarrotte, S. Blivet, S. Bousson, T. Junquera, H. Saugnac, Ph. Szott (Institut de Physique Nucléaire d'Orsay)
|
|
TPAB048 |
Using Passive Superconducting Cavities for Bunch Shortening in CESR |
|
1306 |
|
- S. Belomestnykh, R. Kaplan, J. Reilly, J. Sikora, V. Veshcherevich (Cornell University)
|
|
TPAB049 |
First RF Test at 4.2K of a 200MHz Superconducting Nb-Cu Cavity |
rf cavities |
1309 |
|
- R.L. Geng, P. Barnes, D. Hartill, H. Padamsee, J. Sears (Cornell University), S. Calatroni, E. Chiaveri, R. Losito, H. Preis (CERN)
|
|
TPAB050 |
A 1500MHz Niobium Cavity Made of Electropolished Half-Cells |
rf cavities |
1312 |
|
- R.L. Geng, A. Crawford, G. Eremeev, H. Padamsee, J. Sears (Cornell University)
|
|
TPAB051 |
An Optimized Shape Cavity for TESLA: Concept and Fabrication |
rf cavities, rf-structure |
1314 |
|
- R.L. Geng, J. Kirchgessner, H. Padamsee, J. Sears, V. Shemelin (Cornell University)
|
|
TPAB052 |
Overview of the Cornell ERL Injector Cryomodule |
cryomodule, energy-recovery, linac, rf cavities |
1317 |
|
- M. Liepe, B. Barstow, I. Bazarov, S. Belomestnykh, R.L. Geng, H. Padamsee, V. Shemelin, C.K. Sinclair, K. Smolenski, M. Tigner, V. Veshcherevich (Cornell University)
|
|
TPAB053 |
First Studies for a Low Temperature Higher-Order-Mode Absorber for the Cornell ERL Prototype |
damping, energy-recovery, ferrite, higher-order-mode |
1320 |
|
- M. Liepe, B. Barstow, H. Padamsee (Cornell University)
|
|
TPAB054 |
New Possibilities for Superconducting Cavity Testing at Cornell University |
rf cavities, superconductivity |
1323 |
|
- M. Liepe, P. Barnes, I. Bazarov, S. Belomestnykh, R.L. Geng, H. Padamsee, J. Sears (Cornell University), J. Knobloch (BESSY)
|
|
TPAB055 |
Microphonic Detuning in the 500 MHz Superconducting CESR Cavities |
microphonics, rf cavities, storage-ring |
1326 |
|
- M. Liepe, S. Belomestnykh (Cornell University)
|
|
TPAB056 |
RF Parameter and Field Stability Requirements for the Cornell ERL Prototype |
energy-recovery, energy-spread, feedback, rf cavities |
1329 |
|
- M. Liepe, S. Belomestnykh (Cornell University)
|
|
TPAB057 |
Successful Beam Test of the HOM Free Superconducting SOLEIL Cavity Prototype at the ESRF |
cryogenics, higher-order-mode, rf cavities, storage-ring |
1332 |
|
- J. Jacob, D. Boilot (European Synchrotron Radiation Facility), P. Bosland, P. Bredy, S. Chel (CE Saclay), E. Chiaveri, R. Losito (CERN), J.-M. Filhol, M.-P. Level, P. Marchand, C. Thomas-Madec (SOLEIL)
|
|
TPAB060 |
Higher Order Mode Investigation of Superconducting CH Structures and Status of the CH Prototype Cavity |
accelerator, higher-order-mode, microphonics, rf cavities |
1335 |
|
- H. Podlech, H. Deitinghoff, H. Klein, H. Liebermann, U. Ratzinger, A. Sauer, X. Yan (Institut fur Angewandte Physik)
|
|
TPAB062 |
High Power RF Tests on Input Couplers for 972MHz Superconducting Cavities in the J-PARC Project |
RF coupler |
1338 |
|
- E. Kako, S. Noguchi, T. Shishido (KEK), H. Asano, E. Chishiro, M. Matsuoka, H. Suzuki, M. Yamazaki (Japan Atomic Energy Research Institute)
|
|
TPAB063 |
Results of Two LANL Beta = 0.175, 350-MHz, 2-Gap Spoke Cavities |
linac, rf-structure |
1341 |
|
- T. Tajima, R.L. Edwards, R. Gentzlinger, F.L. Krawczyk, J.E. Ledford, J.-F. Liu, D.I. Montoya, R.J. Roybal, D.L. Schrage, A.H. Shapiro (LANL), G. Corniani (E. Zanon, S.P.A.), D. Barni, A. Bosotti, C. Pagani (INFN)
|
|
TPAB064 |
Q Disease on 350-MHz Spoke Cavities |
rf-structure, superconductivity |
1344 |
|
- T. Tajima, R.L. Edwards, F.L. Krawczyk, J.-F. Liu, D.L. Schrage, A.H. Shapiro (LANL)
|
|
TPAB065 |
Update on RF System Studies and VCX Fast Tuner Work for the RIA Driver Linac |
microphonics, radio-frequency |
1347 |
|
- B. Rusnak, S. Shen (LLNL)
|
|
TPAB066 |
Cryomodule Design for the Rare Isotope Accelerator |
linac |
1350 |
|
- T. Grimm, W. Hartung, M. Johnson, R. York (National Superconducting Cyclotron Laboratory), P. Kneisel, L. Turlington (Thomas Jefferson National Accelerator Facility)
|
|
TPAB067 |
Experimental Study of a 322 MHz v/c=0.28 Niobium Spoke Cavity |
linac |
1353 |
|
- T. Grimm, J. Bierwagen, S. Bricker, C. Compton, W. Hartung, F. Marti, R. York (National Superconducting Cyclotron Laboratory)
|
|
TPAB068 |
X-Ray Tomography of Superconducting RF Cavities |
linac |
1356 |
|
- T. Grimm, W. Hartung, S.E. Musser (National Superconducting Cyclotron Laboratory)
|
|
TPAB069 |
Mechanical Properties, Microstructure, and Texture of Electron Beam Butt Welds in High Purity Niobium |
linac |
1359 |
|
- T. Grimm, C. Compton (National Superconducting Cyclotron Laboratory), T.R. Bieler, H. Jiang (MSU)
|
|
TPAB070 |
Status Report on Multi-Cell Superconducting Cavity Development for Medium-Velocity Beams |
heavy-ion, linac, rf-structure |
1362 |
|
- W. Hartung, C. Compton, T. Grimm, R. York (National Superconducting Cyclotron Laboratory), G. Ciovati, P. Kneisel (Thomas Jefferson National Accelerator Facility)
|
|
TPAB071 |
Simulation of Quench Dynamics in SRF Cavities under Pulsed Operation |
finite element, quench, simulation, thermal |
1365 |
|
|
|
TPAB072 |
The Numerical Analysis of Higher-Order Modes for Superconducting RF Cavity at SRRC |
impedance, light source, parallel computing, wakefield |
1368 |
|
- P.J. Chou (Synchrotron Radiation Research Center)
|
|
TPAB073 |
Effects of Material Properties on Resonance Frequency of a CESR-III Type 500 MHz SRF Cavity |
finite element, simulation |
1371 |
|
- M.C. Lin, L.H. Chang, G.H. Luo, Ch. Wang (Synchrotron Radiation Research Center), M.K. Yeh (National Tsing-Hua University)
|
|
TPAB078 |
Lorentz Detuning of Superconducting Cavities with Unbalanced Field Profiles |
cryomodule, rf cavities |
1380 |
|
- J. Delayen (Thomas Jefferson National Accelerator Facility)
|
|
TPAB079 |
Piezoelectric Tuner Compensation of Lorentz Detuning in Superconducting Cavities |
controls, cryomodule, rf cavities |
1383 |
|
- J. Delayen, G.K. Davis (Thomas Jefferson National Accelerator Facility)
|
|
TPAB083 |
Towards Strongly HOM-Damped Multi-Cell RF Cavities |
electromagnetic-fields, higher-order-mode, impedance, rf cavities |
1389 |
|
- R.A. Rimmer, H. Wang, G. Wu (Thomas Jefferson National Accelerator Facility), D. Li (LBNL)
|
|
TPAB084 |
Active HOMs Excitation in the First Prototype of Superstructure |
higher-order-mode, linear-collider |
1392 |
|
- J. Sekutowicz, A. Gössel, G. Kreps (DESY), S. Zheng (Tsinghua University, Beijing)
|
|
TPAB085 |
Cavities for JLAB's 12 GeV Upgrade |
accelerator, rf cavities |
1395 |
|
- J. Sekutowicz, G. Ciovati, P. Kneisel, G. Wu (Thomas Jefferson National Accelerator Facility), A. Brinkmann (DESY), R. Parodi (INFN), W. Hartung (MSU), S. Zheng (Tsinghua University, Beijing)
|
|
TPAB086 |
Field Emission Studies from Nb Surfaces Relevant to SRF Cavities |
|
1398 |
|
- T. Wang, C. Reece, R. Sundelin (Thomas Jefferson National Accelerator Facility)
|
|
TPAB087 |
Niobium Thin Film Properties Affected by Deposition Energy during Vacuum Depostion |
ionization, plasma, superconductivity, vacuum |
1401 |
|
- G. Wu, L. Phillips, R. Sundelin, A.-M. Valente (Thomas Jefferson National Accelerator Facility)
|
|
TPAB089 |
Magnetostrictive Tuners for SRF Cavities |
Lorentz force, microphonics, tune |
1407 |
|
- C.H. Joshi, A. Mavanur, C.-Y. Tai (Energen, Inc.), T. Grimm (National Superconducting Cyclotron Laboratory)
|
|
TPAB090 |
Fabrication, Test and First Operation of Superconducting Accelerator Modules for Storage Rings |
Landau damping, light source, rf cavities |
1410 |
|
- M. Pekeler, S. Bauer, M. Peiniger, H. Vogel, P. vom Stein (ACCEL Instruments GmbH), S. Belomestnykh, H. Padamsee, P. Quigley, J. Sears (Cornell University)
|
|
TPAG027 |
A Mechanical Tuner for the ISAC-II Quarter Wave Superconducting Cavities |
heavy-ion |
1488 |
|
- R.E. Laxdal, K. Fong, S. Koscielniak, T. Ries, G. Stanford (TRIUMF)
|
|
TPAG034 |
Basis for the Reliability Analysis of the Proton Linac for an ADS Program |
cw, industrial-accelerators, proton |
1506 |
|
- D. Sertore, D. Barni, P. Michelato, L. Monaco, M. Novati, C. Pagani, R. Paulon, P. Pierini (INFN), L. Burgazzi (Ente Nazionale per le Nuove Tecnologie l'Energia e l'Ambiente)
|
|
TPAG038 |
Particle-Beam Behavior in the SNS Linac with Simulated and Reconstructed Beams |
drift tube linac (DTL), linac, longitudinal-dynamics, transverse-dynamics |
1515 |
|
- S. Nath, J. Billen, J. Stovall, H. Takeda, L.M. Young (LANL), D. Jeon (ORNL), K. Crandall (TechSource, Inc.)
|
|
TPPE024 |
Insights in the Physics of the Dynamic Detuning in SRF Cavities and its Active Compensation |
Lorentz force |
1599 |
|
- M. Doleans, S.-H. Kim (ORNL)
|
|
WOAB007 |
Heavy-Ion Beam Dynamics in the Rare Isotope Accelerator Facility |
heavy-ion, linac, radioactive beams |
400 |
|
|
|
WPAB005 |
Ultrashort Electron Bunches with Low Longitudinal Emittance in Multi-Cell Superconducting RF Guns |
bunch compression, electron gun, emittance, photoinjector |
2041 |
|
|
|
WPAB006 |
Generation of Sub-Picosecond Electron Bunches in Superconducting RF Photocathode Injector |
bunch compression, electron gun, emittance, photoinjector |
2044 |
|
|
|
WPAB009 |
The Analysis of the Cross-Talk in a RF Gun Superconducting Cavity |
electron cooling, electron gun, rf cavities |
2050 |
|
- Y. Zhao (BNL), M. Cole (Advanced Energy Systems)
|
|
WPAB012 |
Dipole-Mode-Free and Kick-Free 2-Cell Cavity for the SC ERL Injector |
RF coupler, energy-recovery, higher-order-mode, linac |
2059 |
|
- V. Shemelin, S. Belomestnykh, R.L. Geng, M. Liepe, H. Padamsee (Cornell University)
|
|
WPAB013 |
High Brightness, High Current Injector Design for the Cornell ERL Prototype |
brightness, photoinjector |
2062 |
|
- C.K. Sinclair, I. Bazarov (Cornell University)
|
|
WPAB021 |
An Injector for the Proposed Berkeley Ultrafast X-Ray Light Source |
bunch compression, longitudinal-dynamics, photoinjector, transverse-dynamics |
2086 |
|
- S.M. Lidia, J. Corlett, J. Pusina, J. Staples, A. Zholents (LBNL)
|
|
WOPA001 |
RF Superconductivity: Enabling Technology for the Future |
|
447 |
|
|
|
WPPE026 |
Low Level RF System for Jefferson Lab Cryomodule Test Facility |
controls, radio-frequency |
2379 |
|
- T. Plawski, T. Allison, J. Delayen, C. Hovater, T. Powers (Thomas Jefferson National Accelerator Facility)
|
|
WPPE039 |
Design of Cryogenic System for Several Super-Conducting Modules at National Synchrotron Radiation Research Center |
cryogenics, superconducting magnet |
2405 |
|
- T.C. King, J.C. Chang, S.H. Chang, J.R. Chen, F.Z. Hsiao, H.C. Li (Synchrotron Radiation Research Center)
|
|
WPPB007 |
Super-Conducting Resonator as Beam Induced Signal Pickup |
diagnostics, linac, longitudinal-dynamics |
2426 |
|
- R.C. Pardo, B.E. Clifft, P.N. Ostroumov, S.I. Sharamentov, G.P. Zinkann (ANL)
|
|
ROAA001 |
SNS Cryomodule Performance |
|
457 |
|
- J. Preble, I. Campisi, E. Daly, G.K. Davis, J. Delayen, M. Drury, C. Grenoble, J. Hogan, L. King, P. Kneisel, J. Mammosser, T. Powers, M. Stirbet, H. Wang, T. Whitlatch, M. Wiseman (Thomas Jefferson National Accelerator Facility)
|
|
ROAA002 |
Development of Electropolishing Technology for Superconducting Cavities |
accelerator, linac, rf cavities, superconductivity |
462 |
|
|
|
ROAA003 |
Cold- and Beam Test of the First Prototypes of the Superstructure for the TESLA Collider |
linac, linear-collider, radio-frequency |
467 |
|
- J. Sekutowicz, C. Albrecht, V. Ayvazyan, T. Büttner, R. Bandelmann, P. Castro, S. Choroba, J. Eschke, B. Faatz, A. Gössel, K. Honkavaara, B. Horst, J. Iversen, K. Jensch, H. Kaiser, R. Kammering, D. Kostin, G. Kreps, R. Lange, J. Lorkiewicz, W.-D. Möller, A. Matheisen, H.-B. Peters, D. Proch, K. Rehlich, D. Reschke, H. Schlarb, S. Schreiber, S. Simrock, W. Singer, X. Singer, K. Twarowski, G. Weichert, M. Wendt, G. Wojtkiewicz, K. Zapfe (DESY), M. Liepe (Cornell University), M. Hüening (FNAL), M. Ferrario, C. Pagani (INFN), E. Plawski (Institute for Nuclear Studies, Poland), N. Baboi (SLAC), H. Chen, C. Tang, H. Wenhui, S. Zheng (Tsinghua University, Beijing)
|
|
ROAA004 |
First Demonstration of Microphonic Control of a Superconducting Cavity with a Fast Piezoelectric Tuner |
controls, feedback, microphonics, rf cavities |
470 |
|
- S. Simrock, G. Petrosyan (DESY), S. Andreoli, A. Facco, R. Paparella, V. Zviagintsev (INFN)
|
|
RPAB005 |
Bunch-to-Bunch Energy Stability Test of the Nb Prototypes of the TESLA Superstructure |
linac, linear-collider |
2730 |
|
- H. Schlarb, V. Ayvazyan, P. Castro, R. Kammering, S. Schreiber, J. Sekutowicz, S. Simrock, M. Wendt (DESY), M. Hüening (FNAL), M. Ferrario (INFN)
|
|
RPAB031 |
AGS Upgrade to 1-MW with a Super-Conducting Linac Injector |
linac, neutrino, proton |
2793 |
|
- A.G. Ruggiero, J. Alessi, D. Raparia, T. Roser, W.T. Weng (BNL)
|
|
RPAB032 |
Study of a 10-MW Continuous Spallation Neutron Source |
linac, neutron, proton, spallation |
2796 |
|
- A.G. Ruggiero, H. Ludewig, S. Shapiro (BNL)
|
|
RPAB036 |
A SCRF Linac as a FEL Driver and Storage Ring Injector |
linac, rf cavities |
2808 |
|
- J. Rose, J.B. Murphy, B. Podobedov, T. Shaftan, B. Sheehy, X.J. Wang, L.H. Yu (BNL)
|
|
RPAB042 |
Design of a Superconducting CH-Cavity for Low- and Medium Beta Ion and Proton Acceleration |
accelerator, electromagnetic-fields, simulation |
2820 |
|
- H. Liebermann, H. Podlech, U. Ratzinger, A. Sauer (Institut fur Angewandte Physik)
|
|
RPAB056 |
Analysis of a Multi-Spoke Option for the RIA Driver Linac |
heavy-ion, linac, longitudinal-dynamics, transverse-dynamics |
2849 |
|
- D. Gorelov, T. Grimm, W. Hartung, F. Marti, X. Wu, R. York (National Superconducting Cyclotron Laboratory)
|
|
RPAB073 |
Series Production of Copper and Niobium Cavities for the Spallation Neutron Source |
accelerator, linac, rf cavities, rf-structure |
2887 |
|
- M. Pekeler, S. Bauer, K. Dunkel, B. Griep, C. Piel, H. Vogel, P. vom Stein (ACCEL Instruments GmbH)
|
|
RPAG038 |
The Beam Dynamics Studies of Combined Misalignments and RF Errors for RIA |
alignment, linac, simulation |
2972 |
|
- X. Wu, D. Gorelov, T. Grimm, W. Hartung, F. Marti, R. York (National Superconducting Cyclotron Laboratory)
|
|
ROPA003 |
Status of Low and Intermediate Velocity Superconducting Accelerating Structures |
ion-effects, linac, rf cavities |
581 |
|
|
|
ROPA005 |
Upgrading CEBAF to 12 GeV |
cw, electron, linac |
586 |
|
- L. Harwood (Thomas Jefferson National Accelerator Facility)
|
|
ROPA009 |
COSY-SCL, the Superconducting Injector Linac for COSY |
deuteron, h-minus, linac, radio-frequency-quadrupole |
598 |
|
- R. Toelle, U. Bechstedt, N. Bongers, J. Dietrich, R. Eichhorn, F.M. Esser, O. Felden, R. Gebel, K. Henn, H. Jungwirth, A. Lehrach, R. Maier, U. Pfister, D. Prasuhn, P.v. Rossen, A. Schnase, H. Schneider, Y. Senichev, R. Stassen, H. Stockhorst, E. Zaplatin (Forschungszentrum Juelich), A. Schempp (Institut fur Angewandte Physik)
|
|
ROPA010 |
The ISAC-II Upgrade at TRIUMF - Progress and Developments |
accelerator, heavy-ion, radioactive beams |
601 |
|
- R.E. Laxdal, G. Clark, G. Dutto, K. Fong, A. Mitra, Z.H. Peng, R. Poirier, W. Rawnsley, T. Ries, I. Sekachev, G. Stanford (TRIUMF)
|
|
ROPC007 |
Superconducting RF Structures - Test Facilities and Results |
linear-collider |
673 |
|
|
|
RPPG008 |
Non-Linear Longitudinal Beam Dynamics with Harmonic RF Systems for Bunch Lengthening |
Landau damping, lifetime, luminosity, radio-frequency |
3192 |
|
- V. Serriere, J. Jacob (European Synchrotron Radiation Facility)
|
|
FPAB027 |
A New Digital Control System for CESR-c and the Cornell ERL |
controls, digital signal processing, feedback, rf cavities |
3347 |
|
- M. Liepe, S. Belomestnykh, J. Dobbins, R. Kaplan, C.R. Strohman (Cornell University)
|
|
FPAB079 |
Performance and Upgrade of the JAERI ERL-FEL |
energy-recovery, free-electron-laser |
3446 |
|
- M. Sawamura, R. Hajima, N. Kikuzawa, E.J. Minehara, R. Nagai, N. Nishimori (Japan Atomic Energy Research Institute)
|
|
FPAG058 |
Investigation of Dark Currents in the S-DALINAC Superconducting Cavity |
rf cavities, simulation |
3569 |
|
- S. Setzer, M. Gopych, H.-D. Graef, U. Laier, M. Platz, A. Richter, A. Stascheck, S. Wazlawik, T. Weiland (Technische U. Darmstadt)
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