| |
Title |
Category |
ID |
Principle Author (First Name) |
Principle Author (Family Name) |
Affiliation or Organization |
 |
 |
200MHz Cu-Nb cavities for muon acceleration |
|
WeO06 |
R.L. |
Geng |
Cornell |
|
|
|
A Database for Superconducting Cavities for the TESLA Test Facility |
cavity design / fabrication / treatment |
TuP12 |
P.D. |
Gall |
DESY |
|
|
|
A High Power CW Input Coupler for Cornell ERL Injector Cavities |
coupler / tuner / controls |
ThP38 |
V. |
Veshcherevich |
Cornell University |
|
|
|
A Mechanical Tuner and RF Drive Line System for the ISAC II Quarter Wave Superconducting Cavities |
coupler / tuner / controls |
ThP32 |
R.E |
Laxdal |
TRIUMF |
|
|
|
A Pleasant Surprise: Mild Baking Gives Large Improvement for the Q-Slope of a BCP Cavity |
high gradient |
MoP18 |
G. |
Eremeev |
Cornell University |
|
|
|
A Review of High-Field Q-Slope Studies at Cornell |
SRF basics |
MoP14 |
H. |
Padamsee |
Cornell University |
|
|
|
A cleaning facility to prepare particle free UHV-components |
cavity design / fabrication / treatment |
TuP50 |
Kirsten |
Zapfe |
DESY |
|
|
|
A new Digital Control System for CESR-c and the Cornell ERL |
coupler / tuner / controls |
ThP30 |
M. |
Liepe |
Cornell University |
|
|
|
AC Susceptibility measurements on surface treated
Niobium samples - Influence of electropolishing and baking parameters
on the surface crititical field |
materials / surface effects |
MoP49 |
B. |
Steffen |
DESY |
|
|
|
Accomplishment of Re-plating ANU LINAC |
cavity design / fabrication / treatment |
TuP20 |
N R |
Lobanov |
RSPhSE ANU |
|
|
|
Achievements of the Superconducting Damped Cavities in KEKB Accelerator |
operating experience |
MoP21 |
T |
Furuya |
KEK |
|
|
|
Activities at DESY with high gradient surperconducting rf cavities for e+/e- linear accelerators |
laboratory reports |
MoP00 |
Kirsten |
Zapfe for the TESLA Collaboration |
DESY |
|
|
|
Advancements on Spinning of seamless multicell cavities |
cavity design / fabrication / treatment |
TuP26 |
V. |
Palmieri |
INFN-LNL |
|
|
|
An Overview of SRF Activities at Cornells Laboratory of Elementary Particle Physics |
laboratory reports |
MoP08 |
H. |
Padamsee |
Cornell University |
|
|
|
Analysis of SCRF 350 MHz bulk Nb cavity for 100 MeV Proton LINAC |
cavity design / fabrication / treatment |
TuP15 |
Vikas |
Jain |
Centre for Advanced Technology |
|
|
|
Application of Low and High Tc superconductors in magnets and power applications |
|
MoO04 |
R. |
Fluekiger |
University of Geneva |
|
|
|
Application of flux gate magnetometry to Electropolishing |
cavity design / fabrication / treatment |
TuP25 |
C. |
Bonavolonta |
Naples University |
|
|
|
Approach towards development of 350MHz bulk Nb SCRF Cavities for 100MeV LINAC. |
cavity design / fabrication / treatment |
TuP34 |
A |
Puntambekar |
CAT, Indore |
|
|
|
Approach towards establishing cryogenic test facility for SCRF cavities of 100MeV proton LINAC |
cavity design / fabrication / treatment |
TuP17 |
P. |
Khare |
C.A.T. |
|
|
|
BCP PROCESSING FACILITY |
cavity design / fabrication / treatment |
TuP47 |
Y. |
Tereshkin |
FNAL |
|
|
|
Basic principles of RF superconductivity and SC cavities, limitations in SRF cavities |
|
MoT01 |
P. |
Schmueser |
University of Hamburg |
|
|
|
CEA-Saclay Laboratory report |
laboratory reports |
MoP01 |
C. Z. |
Antoine |
CEA-Saclay |
|
|
|
CEBAF-ER: Extending the Frontier of Energy Recovery at Jefferson Lab |
|
TuO08 |
C |
Tennant |
JLab |
|
|
|
CHARACTERIZATION OF PIEZOELECTRIC ACTUATORS USED FOR SRF CAVITIES ACTIVE TUNING AT LOW TEMPERATURE |
coupler / tuner / controls |
ThP23 |
M |
FOUAIDY |
IPN Orsay |
|
|
|
COSY SC HWR Investigations. |
cavity design / fabrication / treatment |
TuP45 |
E. |
Zaplatin |
FZJ |
|
|
|
CRYHOLAB, a horizontal cavity test facility : new results and development |
laboratory reports |
MoP46 |
H |
SAUGNAC |
IPNO |
|
|
|
CW Energy Recovery Operation of XFELs |
new projects |
MoP41 |
J |
Sekutowicz |
JLAB/DESY |
|
|
|
Challenges for Future Light Sources (ERL and FEL) Or: ERLs and FELs: A Bright Future for Superconducting Cavities |
new projects |
FrO01 |
M. |
Liepe |
Cornell University |
|
|
|
Characteristics of TiN Anti-multipactor Layers Reached By Titanium Vapor Deposition on Alumina Coupler Windows |
coupler / tuner / controls |
ThP31 |
J. |
Lorkiewicz |
DESY |
|
|
|
Characterization of Niobium films and bulk sample by RRR,SIMS and a SQUID magnetometer |
materials / surface effects |
ThP07 |
L.N. |
Hand |
Physics Dept.,Cornell University |
|
|
|
Cold Tests of the RIA Two-Cell Spoke Cavity |
cavity design / fabrication / treatment |
TuP53 |
M.P. |
Kelly |
ANL |
|
|
|
Completion of ALPI medium beta section upgrading |
cavity design / fabrication / treatment |
TuP30 |
A M |
Porcellato |
INFN LNL |
|
|
|
Conceptual Design of A Multi-turn Energy Recovery Linac for the Advanced Photon Source (APS) Storage Ring |
new projects |
MoP42 |
Y |
Cho |
ANL |
|
|
|
Conceptual Layout of the Cavity String of the Cornell ERL Main Linac Cryomodule |
new projects |
MoP33 |
M. |
Liepe |
Cornell University |
|
|
|
Continuous current oscillation electropolishing and its application to half-cells |
cavity design / fabrication / treatment |
TuP13 |
R.L. |
Geng |
Cornell |
|
|
|
Control System for BCP processing facility at FNAL |
cavity design / fabrication / treatment |
TuP04 |
C |
Boffo |
FNAL |
|
|
|
Control of Microphonics and Lorentz Force Detuning with a Fast Mechanical Tuner |
|
TuO09 |
S.N. |
Simrock |
DESY |
|
|
|
Correlation studies between material and surface characteristics and superconducting properties of Nb for RF cavities |
materials / surface effects |
ThP12 |
C. E. |
Reece |
JLab |
|
|
|
Couplers, tuners, piezo compensation |
|
ThWG3 |
B. |
Rusnak |
Lawrence Livermore National Laboratory |
|
|
|
DRIFT TUBE CAVITY CRYOMODULE DESIGN FOR RIA |
new projects |
MoP30 |
J |
Fuerst |
ANL |
|
|
|
Degradation of Superconducting RF Cavity Performance by Extrinsic Properties |
SRF basics |
MoP44 |
J. D. |
Halbritter |
FZK, IMF 1 |
|
|
|
Design and Construction of the Prototype Cryomodule for the CEBAF 12 GeV Upgrade - Renascence |
new projects |
MoP38 |
C. E. |
Reece |
JLab |
|
|
Design and construction of a 352 MHz, beta=0.31 Superconducting Half Wave Resonator for high intensity beams |
cavity design / fabrication / treatment |
TuP09 |
A. |
Facco |
INFN-LNL |
|
|
|
Design of 1.2-GeV SCL as new Injector for BNL AGS* |
new projects |
MoP39 |
A. G. |
Ruggiero |
BNL |
|
|
|
Design of a Superconducting Half Wave Resonator Module for Proton/Deuteron Acceleration |
new projects |
MoP36 |
M |
Pekeler |
ACCEL |
|
|
|
Design study of a 176 MHz SRF half-wave resonator for the SPIRAL-2 project |
cavity design / fabrication / treatment |
TuP02 |
J-L. |
Biarrotte |
IPNO |
|
|
|
Design, Fabrication, and Testing of Novel High Power RF Input Couplers |
coupler / tuner / controls |
ThP34 |
Quan-Sheng |
Shu |
AMAC |
|
|
|
Development Superconducting RF Resonators for ANU Heavy Ion Accelerator |
cavity design / fabrication / treatment |
TuP21 |
N R |
Lobanov |
RSPhSE ANU |
|
|
|
Development of Centrifugal Barrel Polishing and
Single - Point Burnishing Methods for Treatment of Superconducting Nb -
Cavities. |
cavity design / fabrication / treatment |
TuP56 |
G. |
Issarovitch |
DESY |
|
|
|
Development of Hydrogen-free EP and Hydrogen absorption phenomena |
|
WeO15 |
T. |
Higuchi |
Grad. Univ. Advanced Studies |
|
|
|
Development of Pre-tuning System for 972MHz 9cell Superconducting Cavities. |
cavity design / fabrication / treatment |
TuP42 |
T. |
Shishido |
KEK |
|
|
|
Development of SC Intermediate-velocity Structures for the U.S. RIA Project |
|
WeO08 |
K.W. |
Shepard |
ANL |
|
|
|
Development of SRF spoke cavities for low and intermediate energy ion Linacs |
cavity design / fabrication / treatment |
TuP55 |
G. |
OLRY |
IPNO |
|
|
|
Development of Superconducting Proton Linac for ADS |
new projects |
MoP35 |
Nobuo |
Ouchi |
JAERI |
|
|
|
Development of Superstructures for High Current Application |
new projects |
MoP40 |
J |
Sekutowicz |
JLAB/DESY |
|
|
|
Development of a Niobium Bellow for Beamline Connections |
materials / surface effects |
ThP08 |
L. |
Turlington |
JLAB |
|
|
|
Development of a pulsed light ion accelerator module based on half-wave resonators. |
coupler / tuner / controls |
ThP37 |
R. |
Eichhorn |
FZJ |
|
|
|
Development of the 3.9GHz, 3rd harmonic cavity at FNAL |
cavity design / fabrication / treatment |
TuP43 |
N |
Solyak |
FNAL |
|
|
|
ERLP CRYOGENICS |
new projects |
MoP28 |
R |
Bate |
ASTeC CCLRC |
|
|
|
Effect of low temperature baking on niobium cavities |
|
WeO14 |
G |
Ciovati |
TJNAF |
|
|
|
Electro Polishing at DESY |
cavity design / fabrication / treatment |
TuP46 |
Nicolai |
Steinhau-Kuehl |
DESY |
|
|
|
Electropolishing of niobium mono-cell cavities at Henkel Electropolishing Technology Ltd. (Germany) |
cavity design / fabrication / treatment |
TuP19 |
Lutz |
Lilje |
DESY |
|
|
|
Engineering a Light Source for the Future: Studies of a Higher Order Mode Absorber for Cornells Energy Recovery Linac |
coupler / tuner / controls |
ThP20 |
B |
Barstow |
Cornell |
|
|
|
Experimental results on SCRF cavity prototypes for gravitational wave detection |
new projects |
MoP31 |
G. |
Gemme |
INFN Genova |
|
|
|
Fabrication of Superconducting Cavities for the RF Separated Kaon Beam |
cavity design / fabrication / treatment |
TuP10 |
M |
Foley |
FNAL |
|
|
|
Field Flatness Tuning of TM110 Mode Cavities With Closely Spaced Modes |
cavity design / fabrication / treatment |
TuP01 |
L |
Bellantoni |
FNAL |
|
|
|
Field emission related phenomena in a 3 GHz 20 cell cavity of the S-DALINAC |
operating experience |
MoP23 |
M. |
Gopych |
TUD |
|
|
|
First Cryogenic Tests with JLabs new Upgrade Cavities |
high gradient |
MoP17 |
P. |
Kneisel |
JLAB |
|
|
|
Fundamentals of EP: application to Nb and Cu |
|
WeT02 |
V. |
Palmieri |
LNL-INFN |
|
|
|
Future Stable-beam Accelerators for Nuclear Physics |
|
FrO05 |
L |
Harwood |
TJNAF |
|
|
|
Grain boundary specific resistance and RRR measurements in large grain pure niobium |
materials / surface effects |
ThP03 |
S. |
Berry |
CEA-Saclay |
|
|
|
HALF-CELL DIE DESIGNE FOR RIGHT CAVITY GEOMETRY IN HIGH INSITY SC PROTON LINAC |
cavity design / fabrication / treatment |
TuP41 |
K |
Saito |
KEK |
|
|
|
HFSS Computation of Frequency Sensitivity of ISAC-II Medium Beta Superconducting Cavities |
cavity design / fabrication / treatment |
TuP22 |
A.K |
Mitra |
TRIUMF |
|
|
|
HOBICAT - A Horizontal Test Facility for Superconducting RF Cavities |
laboratory reports |
MoP48 |
J. |
Knobloch |
BESSY |
|
|
|
HOT ROLL BONDING METHOD FOR Nb/Cu CLAD SEAMLESS SC CAVITY |
cavity design / fabrication / treatment |
TuP40 |
I |
Ito |
nsc |
|
|
|
High Field Multipacting of 1.3GHz Tesla Cavity |
cavity design / fabrication / treatment |
TuP51 |
Feng |
Zhu |
DESY/PKU,China |
|
|
|
High Gradient Q-Slope : Comparison between BCP and EP Cavities - Modification by Plasma Disharge |
high gradient |
MoP19 |
B. |
Visentin |
CEA Saclay |
|
|
|
High Intensity Proton Sources |
new projects |
FrO03 |
A. |
Facco |
INFN-LNL |
|
|
|
High Power Input Coupler for KEKB SC Cavity and new 1MW Test Bench |
coupler / tuner / controls |
ThP33 |
S |
Mitsunobu |
KEK |
|
|
|
High gradient cw moduls for FEL/standard modules |
|
ThWG4 |
Bernd |
Petersen |
DESY |
|
|
|
High gradient experiments in electropolished TESLA multi-cell cavities |
high gradient |
TuO03 |
Lutz |
Lilje |
DESY |
|
|
|
Higher Order Beam Multipactoring and Single Side Beam Multipactoring |
operating experience |
MoP24 |
S |
Misunobu |
KEK |
|
|
|
Hydrogen surface analysis of niobium in function of various electrochemical conditions |
materials / surface effects |
ThP05 |
C.Z. |
Antoine |
CEA-Saclay |
|
|
|
INFLUENCE OF METAL PARTICLE CONTAMINATIONS ON THE DC FIELD EMISSION OF NIOBIUM |
materials / surface effects |
ThP10 |
G. |
Mueller |
Univ. of Wuppertal |
|
|
|
In situ XPS investigation of the baking effect on
the surface oxide structure formed on niobium sheets used in
superconducting RF cavity production. |
materials / surface effects |
ThP09 |
K |
Kowalski |
AGH University of Science and Technology, Krakow, Poland |
|
|
|
Input Couplers for 972MHz Superconducting Cavities in the High Intensity Proton Linac |
coupler / tuner / controls |
ThP27 |
E. |
Kako |
KEK |
|
|
|
Input RF Coupler Windows for RIA Cavities |
coupler / tuner / controls |
ThP35 |
Quan-Sheng |
Shu |
AMAC |
|
|
|
Installation, Commissioning and Test Results of Superconducting RF modules for Light Sources and Electron Storage Rings |
operating experience |
MoP37 |
M |
Pekeler |
ACCEL |
|
|
|
Investigations to improve field emission performance of production SRF cavities at Jlab |
materials / surface effects |
ThP14 |
T |
Wang |
JLab |
|
|
|
Ion accelerating structures/Intermediate velocity cavities |
|
ThWG2 |
J. |
Delayen |
Jefferson Lab |
|
|
|
KEK Superconducting Cavities |
laboratory reports |
MoP07 |
S |
Mitsunobu |
KEK |
|
|
|
LOW AND INTERMEDIATE BETA CAVITY DESIGN |
cavity design / fabrication / treatment |
TuT01 |
J. R. |
Delayen |
JLab |
|
|
|
Low temperature heat treatment effect on high-field EP cavities |
high gradient |
MoP16 |
J. |
Hao |
DESY/Peking University |
|
|
|
MICROPHONICS AND LORENTZ TRANSFER FUNCTION MEASUREMENTS ON THE SNS CRYOMODULES |
coupler / tuner / controls |
ThP21 |
J. R. |
Delayen |
JLab |
|
|
|
Measurements on particle contamination during cavity assemblies |
cavity design / fabrication / treatment |
TuP52 |
Feng |
Zhu |
DESY/PKU |
|
|
|
Mechanical Design and Engineering of the 3.9 GHz, 3rd Harmonic SRF System at Fermilab |
cavity design / fabrication / treatment |
TuP44 |
D |
Mitchell |
FNAL |
|
|
|
Mechanical Properties of High Purity Niobium - Novel Measurements |
materials / surface effects |
WeO11 |
G.R. |
Myneni |
JLAB |
|
|
|
Mechanical design of a 161 MHz, beta=0.16 superconducting Quarter Wave Resonator with steering correction for RIA |
cavity design / fabrication / treatment |
TuP08 |
A. |
Facco |
INFN-LNL |
|
|
|
Microphonic Detuning Compensation in 3.9GHz Superconducting RF Cavities |
coupler / tuner / controls |
ThP39 |
L |
Bellantoni |
FNAL |
|
|
|
Microphonics Measurements in RIA Cavities |
coupler / tuner / controls |
ThP29 |
M.P. |
Kelly |
ANL |
|
|
|
Microwave nonlinear resonance incorporating the helium liquid-vapour phase transition in superconducting microstrip resonators |
SRF basics |
MoP13 |
A. L. |
Karuzskii |
LPI |
|
|
|
Morphology of niobium films sputtered at different sputtering target-substrate angle |
materials / surface effects |
ThP11 |
D. |
Tonini |
INFN-LNL |
|
|
|
Multi-Beam Accelerating Structures |
cavity design / fabrication / treatment |
TuP16 |
S. |
Noguchi |
KEK |
|
|
|
Multipacting experiments with rectangular coupler waveguides |
coupler / tuner / controls |
ThP24 |
R.L. |
Geng |
Cornell |
|
|
|
Multipacting in 9-cell Tesla cavities |
materials / surface effects |
ThP41 |
K. |
Twarowski |
DESY |
|
|
|
Multipacting in the crab cavity |
cavity design / fabrication / treatment |
TuP23 |
Y |
Morita |
KEK |
|
|
|
Multipactor studies in rectangular waveguides |
coupler / tuner / controls |
ThP25 |
P |
Goudket |
ASTeC |
|
|
|
NIOBIUM TO STAINLESS STEEL BRAZE TRANSITION DEVELOPMENT |
cavity design / fabrication / treatment |
TuP11 |
J |
Fuerst |
ANL |
|
|
|
Near-Surface Composition of Electropolished Niobium by Variable Photon Energy XPS |
SRF basics |
MoP15 |
AM |
Valente |
JLab |
|
|
|
Niobium Quarter-Wave Resonator Development for the Rare Isotope Accelerator |
cavity design / fabrication / treatment |
TuP14 |
W. |
Hartung |
NSCL/MSU |
|
|
|
Operating Experience with Low-beta Accelerators |
|
WeO02 |
Gary |
Zinkann |
ANL |
|
|
|
Operating experience with beta=1 high current accelerators |
operating experience |
TuO04 |
S |
Belomestnykh |
Cornell |
|
|
|
Optimized shape sliding phase structure for TESLA |
new projects |
MoP45 |
V. |
Shemelin |
Cornell Univ. |
|
|
|
Overview of the Cornell ERL Injector Cryomodule |
cavity design / fabrication / treatment |
TuP24 |
H. |
Padamsee |
Cornell University |
|
|
|
PERFORMANCE OF THE 3RD HARMONIC SUPERCONDUCTING CAVITY AT ELETTRA |
operating experience |
MoP27 |
M. |
Svandrlik |
Sincrotrone Trieste |
|
|
|
PIEZOELECTRIC TUNER COMPENSATION OF LORENTZ DETUNING IN SUPERCONDUCTING CAVITIES |
coupler / tuner / controls |
ThP22 |
J. R. |
Delayen |
JLab |
|
|
|
Performance of Seamless Cavities and Fabrication Experience. |
|
WeO10 |
Waldemar |
Singer |
DESY |
|
|
|
Pipe Cooling of Superconducting cavities |
cavity design / fabrication / treatment |
TuP27 |
Renzo F. |
Parodi |
INFN-Genoa |
|
|
|
Process Control and Documentation for SNS Cryomodule Production |
cavity design / fabrication / treatment |
TuP32 |
Joseph |
Preble |
jlab |
|
|
|
Process Control and Web based Software Set-up for the DESY Electro Polishing Infrastructure |
cavity design / fabrication / treatment |
TuP54 |
H. |
Morales |
DESY |
|
|
|
Processing of TTF-cavities at DESY |
cavity design / fabrication / treatment |
TuP07 |
T. |
Ebeling |
DESY |
|
|
|
Production and performance of the first CEBAF upgrade cryomodule prototype |
cavity design / fabrication / treatment |
TuP35 |
AM |
Valente |
JLab |
|
|
|
Progress Of Nb/Cu Technology With 1.5 GHz Cavities |
|
WeO09 |
S |
Calatroni |
CERN |
|
|
|
Properties and structure of electrodeposited copper layers in parts of the TTF power coupler |
materials / surface effects |
ThP18 |
X. |
Singer |
DESY |
|
|
|
Prototype Cryomodule for the ADS LINAC |
new projects |
MoP32 |
S. |
Noguchi |
KEK |
|
|
|
Q Disease: Insights from 350 MHz Spoke Cavities Tests and ERD Analyses of Hydrogen Profile in Nb |
materials / surface effects |
ThP19 |
T. |
Tajima |
LANL |
|
|
|
Q drop at high gradient, Prospects of higher Q for CW, Critical RF SC field |
|
ThWG1 |
K. |
Saito |
KEK |
|
|
|
Q-SLOPE ANALYSIS OF NIOBIUM SC RF CAVITIES |
materials / surface effects |
ThP17 |
K |
Saito |
KEK |
|
|
|
Q-slope at High Gradients: Review about Experiments and Explanations |
high gradient |
TuO01 |
B. |
Visentin |
CEA Saclay |
|
|
|
Quality Control at the TTF- Cleanroom Infrastructure for Cavity- processing |
cavity design / fabrication / treatment |
TuP18 |
Nicolay |
Krupka |
DESY |
|
|
|
Quarter-wave cavities for the SPIRAL 2 project |
cavity design / fabrication / treatment |
TuP06 |
G |
Devanz |
CEA/Saclay |
|
|
|
RESEARCH AND DEVELOPMENT PROGRAM ON SUPERCONDUCTING CRAB CAVITIES FOR KEKB |
new projects |
MoP34 |
H |
Nakai |
KEK |
|
|
|
RF Coupler Tutorial |
|
TuT02 |
Brian |
Rusnak |
LLNL |
|
|
|
|
|
|
RF System Modeling for the JLAB 12 GeV Upgrade and RIA |
coupler / tuner / controls |
ThP36 |
S. |
Simrock |
DESY |
|
|
|
RF conditioning and testing of fundamental power couplers for the RIA project |
coupler / tuner / controls |
ThP26 |
M. |
Stirbet |
Jefferson Laboratory |
|
|
|
RRR EFFECT ON THE FLUX TRAPPING OF NIOBIUM SC CAVITIES |
materials / surface effects |
ThP16 |
K |
Saito |
KEK |
|
|
|
RRR Measurements on Niobium for Superconducting RF Cavities at Fermilab |
materials / surface effects |
ThP01 |
P. |
Bauer |
Fermilab |
|
|
|
Rare Isotope (Heavy Ion) Accelerators |
new projects |
FrO04 |
S |
Schriber |
MSU |
|
|
|
Report from the LANL Spoke Cavity Workshop in October 2002 |
|
WeO05 |
F |
Krawczyk |
LANL |
|
|
|
Report on superconducting RF activities at CERN in 2001/2003 |
laboratory reports |
MoP05 |
R. |
LOSITO |
CERN |
|
|
|
Results from the room temperature model of the Ladder resonator, a very low beta cavity for high current proton linacs. |
cavity design / fabrication / treatment |
TuP03 |
G. |
Bisoffi |
INFN-LNL |
|
|
|
Results on LNL Nb RFQs |
|
WeO07 |
G. |
Bisoffi |
INFN-LNL |
|
|
|
Review of the Status of SRF Photo-Injectors |
operating experience |
TuO07 |
J. |
Teichert |
FZR |
|
|
|
SCRF Activities for the ISAC-II Upgrade at TRIUMF |
laboratory reports |
MoP06 |
R.E |
Laxdal |
TRIUMF |
|
|
|
SCRF detectors for gravitational waves |
|
TuO10 |
G. |
Gemme |
INFN Genova |
|
|
|
SIMPLE ALUMINUM SEALING AGAINST SUPERFLUID HEIUM |
cavity design / fabrication / treatment |
TuP39 |
K |
Saito |
KEK |
|
|
|
SLS OPERATIONAL PERFORMANCE WITH THIRD HARMONIC SUPERCONDUCTING SYSTEM |
operating experience |
MoP25 |
M. |
Pedrozzi |
PSI |
|
|
|
SNS Cryomodule Production Progress and Key Lessons Learned |
cavity design / fabrication / treatment |
TuP33 |
John |
Hogan |
JLAB |
|
|
|
SNS Medium Beta Cryomodule Performance |
cavity design / fabrication / treatment |
TuP31 |
Michael |
Drury |
JLAB |
|
|
|
SRF activities at INFN-Genoa. |
laboratory reports |
MoP09 |
Renzo F. |
Parodi |
INFN-Genoa |
|
|
|
STRONGLY HOM-DAMPED MULTI-CELL RF CAVITIES FOR HIGH-CURRENT APPLICATIONS |
cavity design / fabrication / treatment |
TuP36 |
Robert |
Rimmer |
JLab |
|
|
|
SUPERSTRUCTURES; FIRST COLD TEST AND FUTURE APPLICATIONS |
|
TuO05 |
J |
Sekutowicz |
JLAB/DESY |
|
|
|
SURFACE SMOOTHNESS FOR HIGH GRADIENT NIOBIUM SC RF CAVITIES |
materials / surface effects |
ThP15 |
K |
Saito |
KEK |
|
|
|
SYNCHROTRON SOLEIL SUPERCONDUCTING RF STATUS. |
cavity design / fabrication / treatment |
TuP48 |
C. |
Thomas-Madec |
SOLEIL |
|
|
|
Selective mode dumping and improvement of the quality factor of a microstrip resonator |
coupler / tuner / controls |
ThP28 |
A. L. |
Karuzskii |
LPI |
|
|
|
Statistics of Beam Abort due to SC-RF in KEKB-HER |
operating experience |
MoP20 |
T |
Furuya |
KEK |
|
|
|
Status of the Development of a Superconducting 352 MHz CH-Prototype Cavity |
cavity design / fabrication / treatment |
TuP29 |
H |
Podlech |
IAP |
|
|
|
Status of the LANL Activities in the Field of RF Superconductivity |
laboratory reports |
MoP11 |
T. |
Tajima |
LANL |
|
|
|
Status of the SNS Superconducting Cavity Testing and Cryomodule Production |
|
WeO01 |
J. |
Mammosser |
JLAB |
|
|
|
Status of the TTF FEL |
|
WeO03 |
S |
Schreiber |
DESY |
|
|
|
Study of Higher Order Modes in 5-Cell SRF Cavity for E-Cooling at RHIC |
cavity design / fabrication / treatment |
TuP05 |
Rama |
Calaga |
Stony Brook/BNL |
|
|
|
Superconducting Cavity Production and Preparation at ACCEL Instruments GmbH |
cavity design / fabrication / treatment |
TuP28 |
M |
Pekeler |
ACCEL |
|
|
|
Superconducting RF Activities at Michigan State University |
laboratory reports |
MoP03 |
T. |
Grimm |
Michigan State University |
|
|
|
Superconducting RF activities at FZ-Juelich |
laboratory reports |
MoP10 |
R. |
Stassen |
FZJ |
|
|
|
Superconducting RF activities at the IPN Orsay (France) |
laboratory reports |
MoP04 |
T. |
Junquera |
IPN Orsay |
|
|
|
Superconductivity above the upper critical field as a probe for Niobium RF-cavity surfaces |
|
WeO13 |
S |
Casalbuoni |
Inst. of Appl. Phys., Univ. Hamburg |
|
|
|
Surface Characterization: what has been done, what has been learnt? |
|
TuO02 |
P. |
Kneisel |
JLAB |
|
|
|
Surface Science Laboratory for studying the Surfaces of Superconducting Radio Frequency Cavities |
materials / surface effects |
ThP13 |
A. T. |
Wu |
JLab |
|
|
|
Surface superconductivity of Niobium: Onset of long-range coherence |
SRF basics |
MoP12 |
L |
von Sawilski |
Inst. of Appl. Phys., Univ. Hamburg |
|
|
|
THEORITICAL CRITICAL FIELD IN RF APPILICATION |
SRF basics |
MoO02 |
K |
Saito |
KEK |
|
|
|
THIRD HARMONIC SUPERCONDUCTING PASSIVE CAVITIES IN ELETTRA AND SLS |
|
TuO06 |
P |
Bosland |
CEA Saclay France |
|
|
|
Test of the SOLEIL Cryomodule Prototype with beam at ESRF |
operating experience |
MoP22 |
J. |
Jacob |
ESRF |
|
|
|
Testing of Nb Sheets on a SQUID NDE System with Large Scale x/y Table for Use in Industrial Enviroment |
materials / surface effects |
ThP40 |
A. |
Farr |
wsk Mess- und Datentechnik GmbH, Hanau |
|
|
|
The Daresbury ERLP Project |
new projects |
MoP43 |
m |
Dykes |
ASTeC |
|
|
|
The Diamond Light Source RF System. |
new projects |
MoP29 |
R |
Bate |
ASTeC |
|
|
|
The TESLA High Power Coupler Program at Orsay. |
laboratory reports |
MoP02 |
T. |
Garvey |
LAL-Orsay |
|
|
|
The fabrication and Experimental Investigations of superconducting Photoinjector at Peking University |
cavity design / fabrication / treatment |
TuP49 |
Shengwen |
Quan |
PKU |
|
|
|
The process of PKU-SCAF project |
laboratory reports |
MoP47 |
Rong |
Xiang |
PKU |
|
|
|
Thin Film SRF Applications Beyond Accelerators |
|
MoO03 |
N. |
Klein |
Juelich |
|
|
|
Topologic analysis of samples and cavities: a new tool for morphologic inspection of quench site |
materials / surface effects |
ThP04 |
S. |
Berry S. |
CEA-Saclay |
|
|
|
UHV arc deposition for RF superconducting cavity |
cavity design / fabrication / treatment |
TuP37 |
R |
Russo |
INFN-Roma2 |
|
|
|
UHV arc for superconducting Niobium film deposition |
cavity design / fabrication / treatment |
TuP38 |
R |
Russo |
INFN-Roma2 |
|
|
|
UPGRADE TO CRYOMODULE TEST FACILITY AT JEFFERSON LAB |
new projects |
MoP26 |
T. |
Powers |
JLAB |
|
|
|
Voltage Breakdown and the Processing Mechanism |
|
WeO12 |
G.R. |
Werner |
Cornell University |
|
|
|
Wet Oxidation of an Epitaxial Niobium Film. |
materials / surface effects |
ThP06 |
W.R. |
Frisken |
York U. |
|
|
|
Why does the Q-slope of a Nb cavity change upon baking at 100 C? |
materials / surface effects |
ThP02 |
I.V. |
Bazarov |
Cornell |
|
|
|
X-Ray FEL at DESY |
|
FrO02 |
Hans |
Weise |
DESY |