Paper |
Title |
Other Keywords |
Page |
MOPA008 |
Effects of RF Noise on Longitudinal Emittance Growth in the Tevatron |
collider, damping, longitudinal-dynamics |
48 |
|
- J. Steimel, I. Gonin, T. Khabiboulline, V.A. Lebedev, J. Reid, G. Romanov, V. Shiltsev, A.V. Tollestrup (FNAL)
|
|
MOPB010 |
Design, Construction and Status of an All Niobium Superconducting Photoinjector at BNL |
cw, laser, photoinjector, superconducting-rf |
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)
|
|
MPPB047 |
Photoinjector RF Cavity Design for High Power CW FEL |
free-electron-laser, photoinjector, thermal |
920 |
|
- R.L. Wood, S. Kurennoy, D.L. Schrage, L.M. Young (LANL), V. Christina, J.W. Rathke, T.J. Schultheiss (Advanced Energy Systems)
|
|
MPPB081 |
Determination of Low Level RF Control Requirements for Superconducting Cavities from Microphonics Measurements |
controls, microphonics, superconducting-rf |
992 |
|
- J. Delayen, L. Harwood (Thomas Jefferson National Accelerator Facility)
|
|
MPPG028 |
RF Cavities and Power Amplifier for the Compact Proton Synchrotron |
medical-accelerators, proton |
1074 |
|
- Z. Fang, K. Egawa, K. Endo (KEK), I.I. Averboukh (BINP), T. Hirashima (Denki Kogyo Co., Aikou-gun, Japan)
|
|
TPAE010 |
JLAB High Efficiency Klystron Baseline Design for 12 GeV Upgrade |
gun, klystron, simulation |
1098 |
|
- H. Wang, J. Delayen, L. Harwood, C. Hovater, R. Nelson (Thomas Jefferson National Accelerator Facility)
|
|
TPAE015 |
Design of an X-band, 50Mw, Multiple Beam Klystron |
klystron, radio-frequency, x-band |
1110 |
|
- L. Ives, P. Ferguson, D. Marsden, G. Miram, M. Mizuhara, L. Song (Calabazas Creek Research, Inc.)
|
|
TPAB002 |
Mechanisms Limiting High Gradient RF Cavities |
muon, rf breakdown |
1180 |
|
- J. Norem, A. Hassanein, I. Konkashbaev (ANL)
|
|
TPAB003 |
Dark Current and X Ray Measurements of an 805 MHz Pillbox Cavity |
radio-frequency, rf breakdown, x-ray |
1183 |
|
- J. Norem (ANL), P. Gruber (CERN), A. Bross, S. Geer, A. Moretti, Z. Qian (FNAL), D.M. Kaplan, Y. Torun (Illinois Institute of Technology), D. Li, M. Zisman (LBNL), R.A. Rimmer (Thomas Jefferson National Accelerator Facility)
|
|
TPAB005 |
Impedance Measurements of a HOM-Damped Low Power Model Cavity |
damping, higher-order-mode, impedance, storage-ring |
1189 |
|
- F. Marhauser, E. Weihreter (BESSY), C. Weber (Technical University, Berlin)
|
|
TPAB008 |
Buncher Cavity for ERL |
|
1198 |
|
- V. Veshcherevich, S. Belomestnykh (Cornell University)
|
|
TPAB011 |
Linearization of the Fermilab Recycler High Level RF |
radio-frequency |
1204 |
|
- J. Dey, S. Dris, T. Kubicki, J. Reid (FNAL)
|
|
TPAB015 |
Multi-Harmonic RF Control System for J-PARC RCS |
beam-loading, feedback, radio-frequency, synchrotron |
1216 |
|
- F. Tamura, M. Yamamoto (Japan Atomic Energy Research Institute), A. Schnase (Forschungszentrum Juelich), C. Ohmori, A. Takagi, T. Uesugi, M. Yoshii (KEK)
|
|
TPAB019 |
Improvements in the RF System for the Photon Factory Advanced Ring (PF-AR) |
cooling water, light source, radio-frequency |
1228 |
|
- S. Sakanaka, K. Ebihara, E. Ezura, S. Isagawa, T. Kasuga, H. Nakanishi, M. Ono, M. Suetake, T. Takahashi, K. Umemori, S. Yoshimoto (KEK)
|
|
TPAB020 |
Radio Frequency Acceleration System for 150MeV FFAG |
acceleration, radio-frequency, synchrotron |
1231 |
|
- A. Takagi, Y. Mori, J. Nakano, M. Sugaya, T. Uesugi (KEK)
|
|
TPAB021 |
Direct-Cooling MA Cavity for J-PARC Synchrotrons |
acceleration, radio-frequency, synchrotron |
1234 |
|
- T. Uesugi, Y. Mori, C. Ohmori, A. Takagi, M. Yoshii (KEK), A. Schnase (Forschungszentrum Juelich), F. Tamura, M. Yamamoto (Japan Atomic Energy Research Institute)
|
|
TPAB023 |
HOM Dampers for ALS Storage Ring RF Cavities |
damping, light source |
1240 |
|
- S. Kwiatkowski, K. Baptiste, J. Byrd, J. Julian, R. Low, L. Lyn, D. Plate (LBNL)
|
|
TPAB024 |
A 201 MHz RF Cavity Design with Non-Stressed and Pre-Curved Be Windows for Muon Cooling Channels |
|
1243 |
|
- D. Li, A. Ladran, J. Staples, S. Virostek, M. Zisman (LBNL), W. Lau, S. Yang (Oxford University), R.A. Rimmer (Thomas Jefferson National Accelerator Facility)
|
|
TPAB025 |
RF Tests of an 805 MHz Pillbox Cavity at Lab G of Fermilab |
|
1246 |
|
- D. Li, J. Corlett, R. MacGill, M. Zisman (LBNL), J. Norem (ANL), A. Moretti, Z. Qian, J. Wallig, V. Wu (FNAL), Y. Torun (Illinois Institute of Technology), R.A. Rimmer (Thomas Jefferson National Accelerator Facility)
|
|
TPAB026 |
Deflecting RF Cavity Design for a Recirculating Linac Based Facility for Ultrafast X-Ray Science |
deflecting mode, wakefield |
1249 |
|
|
|
TPAB028 |
Theoretical Analysis of Overmoded Dielectric Photonic Band Gap Structures for Accelerator Applications |
dielectric |
1255 |
|
- M.A. Shapiro, C. Chen, E.I. Smirnova, R.J. Temkin (MIT Plasma Science and Fusion Center)
|
|
TPAB029 |
An 11 GHz Photonic Band Gap Accelerator Structure with Wakefield Suppression |
rf breakdown, rf-structure |
1258 |
|
- E.I. Smirnova, C. Chen, M.A. Shapiro, R.J. Temkin (MIT Plasma Science and Fusion Center)
|
|
TPAB030 |
Transverse Impedance Bench Measurements in NLC/JLC Accelerating Structures |
higher-order-mode, impedance |
1261 |
|
- N. Baboi, G. Bowden, R.M. Jones, J.R. Lewandowski, S.G. Tantawi (SLAC)
|
|
TPAB035 |
An Automated 476 MHz RF Cavity Processing Facility at SLAC |
controls, electromagnetic-fields, rf breakdown, vacuum |
1273 |
|
- P. McIntosh, A. Hill, H. Schwarz (SLAC)
|
|
TPAB043 |
Microphonics Measurements in SRF Cavities for RIA |
microphonics, superconducting-rf |
1291 |
|
- M.P. Kelly, J.D. Fuerst, M. Kedzie, S.I. Sharamentov, K.W. Shepard (ANL), J. Delayen (Thomas Jefferson National Accelerator Facility)
|
|
TPAB047 |
Experimental Results on 700 MHz Multicell Superconducting Cavity for Proton Linac |
accelerator, linac, proton, superconducting-rf |
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)
|
|
TPAB049 |
First RF Test at 4.2K of a 200MHz Superconducting Nb-Cu Cavity |
superconducting-rf |
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 |
superconducting-rf |
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-structure, superconducting-rf |
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, superconducting-rf |
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)
|
|
TPAB054 |
New Possibilities for Superconducting Cavity Testing at Cornell University |
superconducting-rf, 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, storage-ring, superconducting-rf |
1326 |
|
- M. Liepe, S. Belomestnykh (Cornell University)
|
|
TPAB056 |
RF Parameter and Field Stability Requirements for the Cornell ERL Prototype |
energy-recovery, energy-spread, feedback, superconducting-rf |
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, storage-ring, superconducting-rf |
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, superconducting-rf |
1335 |
|
- H. Podlech, H. Deitinghoff, H. Klein, H. Liebermann, U. Ratzinger, A. Sauer, X. Yan (Institut fur Angewandte Physik)
|
|
TPAB076 |
Preliminary Studies of Electric and Magnetic Field Effects in Superconducting Niobium Cavities |
|
1374 |
|
- G. Ciovati, P. Kneisel, G. Myneni, J. Sekutowicz (Thomas Jefferson National Accelerator Facility), A. Brinkmann, W. Singer (DESY), J. Halbritter (Forschungszentrum Karlsruhe)
|
|
TPAB077 |
Improved Prototype Cryomodule for the CEBAF 12 GeV Upgrade |
accelerator, cryomodule |
1377 |
|
- E. Daly, I. Campisi, J. Henry, W.R. Hicks, J. Hogan, P. Kneisel, D. Machie, C. Reece, T. Rothgeb, J. Sekutowicz, K. Smith, T. Whitlatch, K.M. Wilson, M. Wiseman (Thomas Jefferson National Accelerator Facility)
|
|
TPAB078 |
Lorentz Detuning of Superconducting Cavities with Unbalanced Field Profiles |
cryomodule, superconducting-rf |
1380 |
|
- J. Delayen (Thomas Jefferson National Accelerator Facility)
|
|
TPAB079 |
Piezoelectric Tuner Compensation of Lorentz Detuning in Superconducting Cavities |
controls, cryomodule, superconducting-rf |
1383 |
|
- J. Delayen, G.K. Davis (Thomas Jefferson National Accelerator Facility)
|
|
TPAB080 |
Investigation into the Effectiveness of the JLAB High Pressure Rinsing System |
cryogenics |
1386 |
|
- J. Mammosser, T. Rothgeb, T. Wang, A.T. Wu (Thomas Jefferson National Accelerator Facility)
|
|
TPAB083 |
Towards Strongly HOM-Damped Multi-Cell RF Cavities |
electromagnetic-fields, higher-order-mode, impedance, superconducting-rf |
1389 |
|
- R.A. Rimmer, H. Wang, G. Wu (Thomas Jefferson National Accelerator Facility), D. Li (LBNL)
|
|
TPAB085 |
Cavities for JLAB's 12 GeV Upgrade |
accelerator, superconducting-rf |
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)
|
|
TPAB088 |
RF Control System for ISAC II Superconducting Cavities |
controls, superconductivity |
1404 |
|
- K. Fong, S. Fang, M. Laverty (TRIUMF), Q. Zheng (Institute of Modern Physics)
|
|
TPAB090 |
Fabrication, Test and First Operation of Superconducting Accelerator Modules for Storage Rings |
Landau damping, light source, superconducting-rf |
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)
|
|
TPAB091 |
Beam Photography: A Technique for Imaging Dark Currents |
instrumentation, photon, rf breakdown |
1413 |
|
- P. Gruber (CERN), Y. Torun (Illinois Institute of Technology)
|
|
TPAG017 |
Completion of CCL Hot Model for SNS-Linac R&D Program |
cooling water, klystron, linac, vacuum |
1461 |
|
- R. Hardekopf, J. Bernardin, J. Billen, N. Bultman, W. Fox, T. Hardek, S. Hopkins, S. Nath, D. Rej, P.J. Tallerico, L.M. Young (LANL)
|
|
TPAG018 |
Operational Performance of the SNS LLRF Interim System |
linac, radio-frequency, radio-frequency-quadrupole, software |
1464 |
|
- A. Ratti, L. Doolittle, M. Monroy (LBNL), M. Champion, H. Ma (ORNL)
|
|
TOPB002 |
Multipacting Simulations for Superconducting Cavities and RF Coupler Waveguides |
RF coupler, algorithms, multipacting, rf breakdown |
264 |
|
- R.L. Geng (Cornell University)
|
|
TOPD006 |
Tools to Predict Beam Breakup in Recirculating Linacs |
beam-losses, collective-effects, software, transverse-dynamics |
332 |
|
- K. Beard, L. Merminga, B. Yunn (Thomas Jefferson National Accelerator Facility)
|
|
TPPE013 |
Superstructures for High Current FEL Application |
accelerator, free-electron-laser |
1575 |
|
- J. Sekutowicz, K. Beard, P. Kneisel, G. Wu (Thomas Jefferson National Accelerator Facility), C. Thomas (French Atomic Energy Commission), S. Zheng (Tsinghua University, Beijing)
|
|
TPPB053 |
PS 13.3-20 MHz RF Systems for LHC |
accelerator, feedback, ferrite, synchrotron |
1724 |
|
- M. Morvillo, R. Garoby, D. Grier, M. Haase, A. Krusche, P. Maesen, M. Paoluzzi, C. Rossi (CERN)
|
|
TPPB060 |
Slip Stacking Experiments at Fermilab Main Injector |
longitudinal-dynamics |
1736 |
|
- K. Koba, B. Barnes, T. Berenc, B. Chase, I. Kourbanis, J.A. MacLachlan, K. Meisner, J. Steimel (FNAL)
|
|
TPPB087 |
Gaseous Hydrogen for Muon Beam Cooling |
collider, ionization cooling, muon, rf breakdown |
1792 |
|
- R.P. Johnson, R.E. Hartline (Muons, Inc.), C. Ankenbrandt, M. Kuchnir, A. Moretti, M. Popovic (FNAL), M. Alsharo'a, E. Black, D.M. Kaplan (Illinois Institute of Technology)
|
|
WPAE037 |
Analysis of a Grid Window Structure for RF Cavities in a Muon Cooling Channel |
accelerator, electromagnetic-fields, muon |
2023 |
|
- A. Ladran, D. Li, J. Staples, S. Virostek, M. Zisman (LBNL), A. Moretti (FNAL), R.A. Rimmer (Thomas Jefferson National Accelerator Facility)
|
|
WPAB009 |
The Analysis of the Cross-Talk in a RF Gun Superconducting Cavity |
electron cooling, electron gun, superconducting-rf |
2050 |
|
- Y. Zhao (BNL), M. Cole (Advanced Energy Systems)
|
|
WPAG016 |
Design Studies for a 1036 Super-B-Factory |
accelerator, beam-beam-effects, collider, higher-order-mode |
2300 |
|
- J. Seeman, Y. Cai, F.-J. Decker, S. Ecklund, A. Fisher, J. Fox, S. Heifets, Y. Nosochkov, A. Novokhatski, M. Sullivan, D. Teytelman, U. Wienands, Y. Yan (SLAC), M. Biagini (INFN)
|
|
WPPB026 |
Cavity Mode Related Wire Breaking of the SPS Wire Scanners and Loss Measurements of Wire Materials |
beam profile monitor |
2470 |
|
- F. Roncarolo, F. Caspers, B. Dehning, E. Jensen, J. Koopman, J.F. Malo (CERN)
|
|
ROAA002 |
Development of Electropolishing Technology for Superconducting Cavities |
accelerator, linac, superconducting-rf, superconductivity |
462 |
|
|
|
ROAA004 |
First Demonstration of Microphonic Control of a Superconducting Cavity with a Fast Piezoelectric Tuner |
controls, feedback, microphonics, superconducting-rf |
470 |
|
- S. Simrock, G. Petrosyan (DESY), S. Andreoli, A. Facco, R. Paparella, V. Zviagintsev (INFN)
|
|
ROAA006 |
Operation of the RHIC RF Systems |
acceleration, collider, heavy-ion, radio-frequency |
476 |
|
- J.M. Brennan, M. Blaskiewicz, J. DeLong, W. Fischer, T. Hayes, K.S. Smith, A. Zaltsman (BNL)
|
|
RPAB010 |
Harmonic Cavities for the NLC Damping Rings |
intra-beam scattering, storage-ring |
2745 |
|
- A. Wolski, S. De Santis (LBNL)
|
|
RPAB036 |
A SCRF Linac as a FEL Driver and Storage Ring Injector |
linac, superconducting-rf |
2808 |
|
- J. Rose, J.B. Murphy, B. Podobedov, T. Shaftan, B. Sheehy, X.J. Wang, L.H. Yu (BNL)
|
|
RPAB038 |
Debuncher Developing for H and D Beams Injection into COSY Ring |
bunching, linac, longitudinal-dynamics, proton |
2814 |
|
- Y. Senichev, R. Maier, R. Stassen, R. Toelle, N. Vasyukhin (Forschungszentrum Juelich)
|
|
RPAB046 |
Cold-Model Tests of an Annular Coupled Structure for Upgrade of a J-PARC Linac |
accelerator, linac, proton |
2826 |
|
- H. Ao (Japan Atomic Energy Research Institute), V. Paramonov (Institute for Nuclear Research, Moscow), N. Hayashizaki (Tokyo Institute of Technology)
|
|
RPAB051 |
Mechanical Design of the Drift-Tube Linac (DTL) for the Spallation Neutron Source |
accelerator, drift tube linac (DTL), rf-structure |
2841 |
|
- T. Ilg, S. Ellis, W. Fox, R. Gentzlinger, R. Martineau, L. Rowton, J. Sims (LANL), G. Johnson (ORNL)
|
|
RPAB052 |
Fabrication and Tuning of the SNS CCL Hot Model |
acceleration, linac |
2844 |
|
- N. Bultman, J. Billen, Z. Chen, M. Collier, D. Richards, L.M. Young (LANL)
|
|
RPAB062 |
Status of the Production Electropolishing System at JLAB |
|
2860 |
|
- J. Mammosser, J. Delayen, J. Gordon, L. Phillips, A.-M. Valente, T. Wang, A.T. Wu (Thomas Jefferson National Accelerator Facility), J. Saunders (ORNL)
|
|
RPAB073 |
Series Production of Copper and Niobium Cavities for the Spallation Neutron Source |
accelerator, linac, rf-structure, superconducting-rf |
2887 |
|
- M. Pekeler, S. Bauer, K. Dunkel, B. Griep, C. Piel, H. Vogel, P. vom Stein (ACCEL Instruments GmbH)
|
|
RPAB075 |
Continued Development of the RFI Linac Structure |
linac, medical-accelerators, radio-frequency-quadrupole, rf-structure |
2889 |
|
- D.A. Swenson, K.R. Crandall, F.W. Guy, W.J. Starling (Linac Systems)
|
|
ROPA003 |
Status of Low and Intermediate Velocity Superconducting Accelerating Structures |
ion-effects, linac, superconducting-rf |
581 |
|
|
|
RPPB010 |
Coupling Impedance Measurements of the SNS RF Cavity and Extraction Kicker Magnet |
impedance |
3035 |
|
- H. Hahn, M. Blaskiewicz, D. Davino (BNL)
|
|
RPPB063 |
The Effects of Temperature Variation on Electron Beams with RF Voltage Modulation |
collective-effects, feedback, instability, non-linear-dynamics |
3150 |
|
- P.J. Chou, M.H. Wang (Synchrotron Radiation Research Center), S.Y. Lee (Indiana University)
|
|
FPAB027 |
A New Digital Control System for CESR-c and the Cornell ERL |
controls, digital signal processing, feedback, superconducting-rf |
3347 |
|
- M. Liepe, S. Belomestnykh, J. Dobbins, R. Kaplan, C.R. Strohman (Cornell University)
|
|
FPAB029 |
53 MHz Feedforward Beam Loading Compensation in the Fermilab Main Injector |
beam-loading, feed forward, radio-frequency |
3353 |
|
- J. Dey, I. Kourbanis, J. Reid, J. Steimel (FNAL)
|
|
FPAB030 |
2.5 MHz Feedforward Beam Loading Compensation in the Fermilab Main Injector |
beam-loading, feed forward, radio-frequency |
3356 |
|
- J. Dey, I. Kourbanis, J. Steimel (FNAL)
|
|
FPAB032 |
Beam Loading Compensation for Slip Stacking |
feedback |
3362 |
|
- J. Steimel, T. Berenc, C. Rivetta (FNAL)
|
|
FPAB039 |
Control of Heavily-Beam-Loaded SNS-Ring Cavities |
accumulation, beam-loading, feedback, radio-frequency |
3380 |
|
- T.L. Owens (ORNL), K.S. Smith, A. Zaltsman (BNL)
|
|
FPAG058 |
Investigation of Dark Currents in the S-DALINAC Superconducting Cavity |
simulation, superconducting-rf |
3569 |
|
- S. Setzer, M. Gopych, H.-D. Graef, U. Laier, M. Platz, A. Richter, A. Stascheck, S. Wazlawik, T. Weiland (Technische U. Darmstadt)
|
|
FOPL001 |
Technology Options for Linear Colliders |
electron cloud, linac, linear-collider, rf-structure |
737 |
|
- G. Dugan (Cornell University)
|
|