First
Name |
Last Name |
Affiliation |
Paper ID |
Abstract Title |
|
|
|
|
|
|
|
|
|
Sunday,
July 10: Tutorials |
|
|
Kenji |
Saito |
KEK |
SuA01 |
Basic Principles of SRF (not submitted) |
|
Sergey |
Belomestnykh |
Cornell University |
SuA02 |
High-b Cavity
Design |
|
Wolf-Dietrich |
Moeller |
DESY |
SuA03 |
Input Couplers for
Superconducting Cavities - Design and Test |
|
Alberto |
Facco |
INFN-LNL |
SuA04 |
Low beta Cavity Design |
|
Juergen |
Halbritter |
Karlsruhe |
SuA05 |
The Nb oxide system – implications for SRF cavities |
|
Jean |
Delayen |
TJNAF |
SuP01 |
Ponderomotive Instabilities and Microphonics |
|
Tom |
Powers |
TJNAF |
SuP02 |
Theory and Practice of Cavity Test Systems |
|
Detlef |
Reschke |
DESY |
SuP03 |
Cleanliness Techniques |
|
Carlo |
Pagani |
DESY / INFN-Milano |
SuP04 |
Cryomodule Design, Assembly, Alignment (not submitted) |
|
Monday,
July 11: Invited talks |
|
|
Hasan |
Padamsee |
Cornell University |
MoA01 |
Introduction - SRF: Two Hectic Years (not submitted) |
|
Isidoro |
Campisi |
ORNL/SNS |
MoA02 |
Status of SNS (not submitted) |
|
Lutz |
Lilje |
DESY |
MoA03 |
Status of TTF |
|
Charles |
Reece |
TJNAF |
MoA04 |
A 100 MV Cryomodule for CW Operation |
|
Michael |
Pekeler |
ACCEL |
MoA05 |
SRF in Storage Rings |
|
Michael |
Kelly |
ANL |
MoP01 |
Structures for RIA and FNAL Booster |
|
Guillaume |
Devanz |
CEA-Saclay |
MoP02 |
SPIRAL 2 resonators |
|
Rolf |
Stassen |
FZ-Juelich |
MoP03 |
The HW resonators in Juelich |
|
Anna Maria |
Porcellato |
LNL INFN |
MoP04 |
Niobium sputtered QWRs |
|
Giovanni |
Bisoffi |
INFN-LNL |
MoP05 |
Superconducting RFQs |
|
Robert |
Laxdal |
TRIUMF |
MoP06 |
Recent
Progress in the Superconducting RF Program at TRIUMF/ISAC |
|
Joe |
Ozelis |
TJNAF |
MoP07 |
Performance of
medium-beta elliptical cavities (not submitted) |
|
Ganapati Rao |
Myneni |
TJNAF |
MoP08 |
Physical and mechanical
properties of single and large crystal high-RRR niobium |
|
Peter |
Kneisel |
TJNAF |
MoP09 |
Performance of Large
Grain and Single Crystal Niobium Cavities |
|
Waldemar |
Singer |
DESY |
MoP10 |
Seamless/bonded Niobium Cavities |
|
Sergio |
Calatroni |
CERN |
MoP11 |
Progress in Nb-Cu coating techniques |
|
Tsuyoshi |
Tajima |
LANL |
MoP12 |
Hi-Tc:
New Developments & Progress on Understanding the Mechanisms & Hope
for the Future |
|
Tuesday,
July 12: Invited talks |
|
|
Alexander |
Gurevich |
University of Wisconsin |
TuA01 |
Theoretical advances in SRF |
|
Enzo |
Palmieri |
INFN-LNL |
TuA02 |
Advancement in
comprehension of the Q-slope for superconducting cavities |
|
Gianluigi |
Ciovati |
TJNAF |
TuA03 |
Review of Frontier Workshop and Q-slope results |
|
Rongli |
Geng |
Cornell University |
TuA04 |
Review of new shapes for higher gradient (not submitted) |
|
Tuesday,
July 12: Students/Young researchers |
|
|
Dave |
Meidlinger |
MSU |
TuA05 |
High Current SRF Cavity Design |
|
Zachary |
Conway |
University of Illinois Urbana-Champaign |
TuA06 |
Electromagnetic and
mechanical mode interactions of spoke-loaded cavities |
|
Rama |
Calaga |
BNL |
TuA07 |
ERL 5-cell cavity design for high
currents |
|
|
Gregory |
Eremeev |
Cornell University |
TuA08 |
New results on High Field Q-slope (not submitted) |
|
Timothy |
Koeth |
FNAL |
TuA09 |
SC Cavities at 3.9 GHz (not submitted) |
|
Hui |
Tian |
College of William & Mary ; Jefferson Lab |
TuA10 |
Surface studies of
niobium chemically polished under conditions for SRF cavity production |
|
Alexander |
Brandt |
DESY |
TuA11 |
General Automation of
LLRF Control for Superconducting Accelerators |
|
Giulia |
Lanza |
INFN-LNL |
TuA12 |
New Magnetron Configuration for Nb onto Cu |
|
Silvia Maria |
Deambrosis |
INFN-LNL |
TuA13 |
A-15 Superconductors -
Alternative to Niobium for RF Cavities |
|
Carmela |
Bonavolonta |
INFN-LNL |
TuA14 |
Flux Gate Magnetometry Applied to Cavities |
|
|
Maria |
Gusarova |
MEPHI |
TuA15 |
Input coupler development
for superconducting cavity 500kW CW power feed |
|
Przemyslaw |
Sekalski |
Technical University of Lodz - DMCS, Poland & DESY |
TuA16 |
Piezoelectric stack based
system for Lorentz force compensation |
|
Tuesday,
July 12: Posters |
|
|
Pierre |
Bauer |
FNAL |
TuP01 |
A Comparison of Q-Slope
Models and Data in Bulk Nb SRF Cavities |
|
Gianluigi |
Ciovati |
TJNAF |
Tup02 |
Analysis of the medium
field Q-slope in superconducting cavities made of bulk niobium |
|
Gregory |
Eremeev |
Cornell University |
TuP03 |
Change In High Field
Q-Slope By Anodizing Of The Baked Cavities |
|
Melissa |
Delheusy |
CEA-Saclay / Max-Planck-Institut fur Metallforsch |
TuP04 |
In-situ investigation of
the Nb/oxygen interfaces - correlation with the properties of the Nb RF
superconducting cavities |
|
Bernard |
Visentin |
CEA-Saclay |
TuP05 |
First
Experimental Results on “Fast Air-Baking” |
|
Jim |
Norem |
ANL |
TuP06 |
Atom-Probe Tomography
Analyses of Niobium Superconducting RF Cavity Materials |
|
David |
Swenson |
Epion Corporation |
TuP07 |
Study of gas cluster ion
beam surface treatments for mitigating RF breakdown |
|
Andy |
Wu |
TJNAF |
TuP08 |
Investigation of Oxide
Layer Structure on Nb Surfaces Using a Secondary Ion Mass Spectrometer |
|
John |
Kaufman |
Cornell University |
TuP09 |
SIMS analysis of NbO on
Nb samples of different oxygen content |
|
John |
Kaufman |
Cornell University |
TuP10 |
Surface roughness vs grain size analysis on Nb samples |
|
Arti |
Dangwal |
University of Wuppertal |
TuP11 |
DC Field Emission
Scanning Measurements of Electropolished Nb Samples |
|
Lou |
Hand |
Cornell University |
TuP12 |
Use of Precision X-Ray
Diffraction, Interstitial Gas Fusion Analysis and Squid Measurements to
Investigate CVD- and Bulk- Niobium Samples |
|
|
|
|
TuP13 |
Abstract withdrawn |
|
|
Timergali |
Khabiboulline |
FNAL |
TuP14 |
Recent results of testing
3-cell 3.9 GHz accelerating cavity at Fermilab |
|
Mandi |
Meidlinger |
MSU |
TuP15 |
Design of Half-Reentrant SRF Cavities |
|
Kailash |
Mittal |
Bhaba Atomoic Research Center |
TuP16 |
RF Design of a Single
Cell Superconducting Elliptical Cavity with Input Coupler |
|
Kailash |
Mittal |
Bhaba Atomoic Research Center |
TuP17 |
Structural Analysis of
Single Cell Superconducting Elliptical Cavity With Static Lorentz Force |
|
Kailash |
Mittal |
Bhaba Atomoic Research Center |
TuP18 |
Optimization of Wall
Thickness of Superconducting 700 MHz Bulk Niobium and Niobium Coated OFHC
Copper Cavities by Thermal/Structural Analysis |
Yuichi |
Morozumi |
KEK |
TuP19 |
Design and Analysis of 45
MV/m Superconducting Structures |
|
Takayuki |
Saeki |
KEK |
TuP20 |
Fabrication of four
9-cell IHCIRO high-gradient cavities for the R&D of ILC accelerator in
KEK |
|
Kenji |
Saito |
KEK |
TuP21 |
Mechanical Structure Analysis for ICHIRO 9-Cell Cavity |
|
Friedrich |
Staufenbiel |
FZ-Rossendorf |
TuP22 |
Field Profile Measurement of the 3½ Cell SRF Gun |
|
Friedrich |
Staufenbiel |
FZ-Rossendorf |
TuP23 |
Status of the 3½ Cell SRF Gun Project in Rossendorf |
|
An |
Sun |
ORNL |
TuP24 |
Exponential Decayed Pulse
Incident Power Measurement Formulae for a Superconducting RF Cavity without
Beam Load |
|
Deiego |
Tonini |
INFN - LNL |
TuP25 |
Preliminari Study of Bulk
Niobium Superconductive Photonic Bandgap Accelerating Cavity |
|
Jim |
Norem |
ANL |
TuP26 |
High Electric Fields in rf Cavities |
|
Susan |
Musser |
MSU |
TuP27 |
X-Ray Imaging of
Superconducting Radio Frequency Cavities |
|
Genfa |
Wu |
TJNAF |
TuP28 |
Multipacting analysis for JLAB ampere class cavities |
|
Paolo |
Pierini |
INFN-Milano |
TuP29 |
The Fast Piezo-Blade Tuner for SCRF Resonators |
|
Rongli |
Geng |
Cornell University |
TuP30 |
Niobium-Copper Cavity Development for Muon Collider |
|
|
|
|
TuP31 |
see student talk TuA06 |
|
|
Ralf |
Eichhorn |
FZ-Juelich |
TuP32 |
The summarized fndings
from the Juelich halfwave Resonators |
|
Huimin |
Gassot |
IPN Orsay |
TuP33 |
Triple-Spoke Cavity
Design Improvement for HIPPI Collaboration |
|
Ivan |
Gonin |
FNAL |
TuP34 |
Design of 325 MHz Single Spoke Resonator at FNAL |
|
Ivan |
Gonin |
FNAL |
TuP35 |
Development of the
SCRF β=0.81 cavity for Proton
Driver |
|
Robert |
Laxdal |
TRIUMF |
TuP36 |
ISAC-II QWR
Cavity Characterizations and Investigations |
|
Guillaume |
Olry |
Institut de Physique Nucleaire |
TuP37 |
Development of Beta 0.12,
88 MHz, Quarter-Wave Resonator and its Cryomodule for the SPIRAL2 Project |
|
Guillaume |
Olry |
Institut de Physique Nucleaire |
TuP38 |
Development of Spoke
Cavities for the EURISOL and EUROTRANS Projects |
|
Michael |
Pekeler |
ACCEL |
TuP39 |
Performance of a
prototype 176 MHz beta=0.09 half-wave resonator for the SARAF Linac |
|
Kenneth |
Shepard |
ANL |
TuP40 |
Development of Spoke Cavities for RIA |
|
Evgeny |
Zaplatine |
FZ-Juelich |
TuP41 |
Multiti-Spoke
Cavity End Region Analysis |
|
Evgeny |
Zaplatine |
FZ-Juelich |
TuP42 |
FZJ SC Cavity Coupled
Analyses |
|
Rongli |
Geng |
Cornell University |
TuP43 |
High-Gradient Activities at Cornell: Reentrant Cavities |
|
Kenji |
Saito |
KEK |
TuP44 |
R&D Activities for ILC High Gradient Cavity in KEK |
|
Kenji |
Saito |
KEK |
TuP45 |
Feasibility Study of ~ 50MV/m by Single Cell Cavities |
|
Joe |
Ozelis |
TJNAF |
TuP46 |
A Sapphire Loaded TE011
Cavity for Surface Impedance Measurements – Design, Construction, and
Commissioning Status |
|
Pierre |
Bauer |
FNAL |
TuP47 |
Recent RRR measurements on Niobium at Fermilab |
|
Cristian |
Boffo |
FNAL |
TuP48 |
Eddy Current Scanning at Fermilab |
|
Waldemar |
Singer |
DESY |
TuP49 |
SQUID-based scanning
system for detecting defects in Nb sheets for RF cavities |
|
William |
Frisken |
York University |
TuP50 |
Laser Annealing Experiments with Niobium |
|
Zeke |
Insepov |
ANL |
TuP51 |
Computer simulation of
surface modification with ion beams |
|
Hairong |
Jiang |
MSU |
TuP52 |
Cold rolling texture
evolution in high purity niobium using a tapered wedge specimen |
|
Hairong |
Jiang |
MSU |
TuP53 |
Creep and dimensional
stability of high purity niobium electron beam welds |
|
Peter |
Lee |
University of Wisconsin |
TuP54 |
Grain Boundary Flux
Penetration and Resistivity in Large Grain Niobium Sheet |
|
Anatolii |
Polyanskii |
University of Wisconsin |
TuP55 |
A Magneto Optical Study
of Grain Boundary Flux Penetration in Niobium Sheet Sampled Across Simulated
Cavity Production Route |
|
Ganapati Rao |
Myneni |
TJNAF |
TuP56 |
Contaminant analysis of
polycrystalline and single crystal niobium used in accelerator cavities by
SIMS |
|
Richard |
Ricker |
NIST |
TuP57 |
Comparison of Deformation
in High-Purity Single/Large Grain and Polycrystalline Niobium Superconducting
Cavities |
|
Xenia |
Singer |
DESY |
TuP58 |
Investigation of Ingot
Material with Large Grain for RF Cavities |
|
Kazuhiro |
Enami |
KEK |
TuP59 |
Development of Nb/Cu Clad Seamless Cavity |
|
Fumio |
Furuta |
KEK |
TuP60 |
Different materials
bonding by HIP technology and the reliability |
|
Andrew |
Gerhan |
Alameda Applied Sciences Corp |
TuP61 |
Studies of niobium thin
films deposited by coaxial energetic deposition |
|
Roberto |
Russo |
INFN Sezione di Napoli |
TuP62 |
Cathodic Arc Grown
Niobium films for RF Superconducting Cavity Applications |
|
Alexander |
Romanenko |
Cornell University |
TuP63 |
RF properties at 6 GHz of
Cathodic Arc films up to 300 Oe |
|
Genfa |
Wu |
TJNAF |
TuP64 |
A prototype of 500MHz
cavity coating system by ECR plasma |
|
Mohammed |
Fouaidy |
IPN Orsay |
TuP65 |
RRR of Copper Coating and
Low Temperature Electrical Resistivity of Materials for TTF Couplers |
|
Chet |
Nieter |
Tech-X Corporation |
TuP66 |
Modeling RF Cavities and
Multipacting with the VORPAL Code |
|
Genfa |
Wu |
TJNAF |
TuP67 |
Studies of electron activities in SNS cavities using FishPact |
|
Enzo |
Palmieri |
INFN-LNL |
TuP68 |
Progress on Spun Seamless Cavities |
|
|
Wednesday,
July 13: Modearted discussions |
|
|
Peter |
Kneisel |
TJNAF |
WeA01 |
Topic 1: High-field Q-slope |
|
Clair |
Antoine |
CEA-Saclay |
WeA02 |
Topic 2: Surface Analysis (not submitted) |
|
Frank |
Krawczyk |
LANL |
WeA03 |
Topic 3: Spoke vs Elliptical Cavities for beta = 0.5 |
|
Thursday,
July 14:Invited talks |
|
|
Hitoshi |
Hayano |
KEK |
ThA01 |
Superconducting RF Test Facility (STF) in KEK |
|
Helen |
Edwards |
DESY/FNAL |
ThA02 |
Results from the New
Linear Collider Test Facility at Fermilab (not submitted) |
|
Ilan |
Ben-Zvi |
BNL |
ThA03 |
Review of Various
Approaches to Address High Currents in SRF Electron Linacs |
|
Terry |
Garvey |
LAL Orsay |
ThA04 |
A Review of the Design
and Performance of CW and Pulsed High Power Couplers |
|
Kwok |
Ko |
SLAC |
ThA05 |
Advances in
Electromagnetic Modeling through High Performance Computing |
|
Dietmar |
Janssen |
FZ-Rossendorf |
ThA06 |
Review of superconducting RF Guns |
|
Stefan |
Simrock |
DESY |
ThA07 |
Review of slow and fast tuners |
|
Matthias |
Liepe |
Cornell University |
ThA08 |
Review on progress in RF control systems |
|
K. |
Hosoyama |
KEK |
ThA09 |
Crab cavity development (not submitted) |
|
Deieter |
Proch |
DESY |
ThA10 |
Summary of Industrialization Symposium (not submitted) |
|
Thursday,
July 14:Posters |
|
|
Cristian |
Boffo |
FNAL |
ThP01 |
EP on Small Samples Studies at Fermilab |
|
Fabien |
Eozenou |
CEA/Saclay |
ThP02 |
Efficiency Of
Electropolishing Versus Bath Composition And Aging: First Results |
|
Fabien |
Eozenou |
CEA/Saclay |
ThP03 |
Aluminium and Sulphur Impurities in Electropolishing Baths |
|
Rongli |
Geng |
Cornell University |
ThP04 |
Vertical Electropolishing Niobium Cavities |
|
Nicolai |
Steinhau-Kühl |
DESY |
ThP05 |
Update on the experiences
of electro polishing of multi-cell resonators at DESY |
|
Lutz |
Lilje |
DESY |
ThP06 |
Electropolishing of
Niobium Mono-Cell Cavities at HENKEL Electropolishing Technology Ltd.
(Germany) |
|
John |
Mammosser |
TJNAF |
ThP07 |
Status of The Electropolishing
Program At Jefferson Lab |
|
Axel |
Matheisen |
DESY |
ThP08 |
Preparation Sequences for
Electro-Polished High Gradient Multi-cell Cavities at DESY |
|
Arne |
Brinkmann |
DESY |
ThP09 |
Further Improvements with
Dry-Ice Cleaning om SRF-Cavities |
|
Paolo |
Michelato |
INFN-Milano |
ThP10 |
High pressure rinsing
parameters measurement and process optimization |
|
Michael |
Kelly |
ANL |
ThP11 |
A Joint ANL/FNAL Cavity Surface Processing Facility |
|
James |
Sears |
Cornell University |
ThP12 |
Developments in Electron
Beam Welding of Niobium Cavities |
|
Nicolay |
Krupka |
DESY |
ThP13 |
Update on Quality Control
of the Clean-room for Superconducting Multi Cell Cavities at DESY |
|
Kurt |
Escherich |
DESY |
ThP14 |
Clean-room Facilities for
High Gradient Resonator Preparation |
|
Jasper A. |
Dammann |
DESY |
ThP15 |
Towards
Industrialisation: Supporting the Manufacturing Processes of Superconducting
Cavities at DESY |
|
John |
Rathke |
Advanced Energy Systems Inc. |
ThP16 |
Prototyping Activities at
AES for ANL-RIA and ATLAS Cavities |
|
Katsuya |
Sennyu |
Mitsubishi Heavy Industries, ltd |
ThP17 |
Development of the
Superconducting Cavity at Mitsubishi Heavy Industries, Ltd. |
|
Takaaki |
Furuya |
KEK |
ThP18 |
Status of the
Superconducting Accelerating Cavity for KEKB |
|
Sergey |
Belomestnykh |
Cornell University |
ThP19 |
Status of the CESR Superconducting RF System |
|
Rama |
Calaga |
BNL |
ThP20 |
High Current Superconducting Cavities at RHIC |
|
Dieter |
Gall |
DESY |
ThP21 |
A Database for
Superconducting Cavities for the TESLA Test Facility |
|
Rongli |
Geng |
Cornell University |
ThP22 |
Two-Cell Niobium Injector
Cavity for Cornell ERL Prototype |
|
Mykhaylo |
Gopych |
Institut fuer Kernphysik |
ThP23 |
Recent Results and Developments from the S-DALINAC |
|
Jiankui |
Hao |
Peking University |
ThP24 |
Recent Progresses on
DC-SC Photoinjector at Peking University |
|
Jiankui |
Hao |
Peking University |
ThP25 |
Possibility of Adopting Solenoid in DC-SC Photoinjector |
|
Douglas |
Holmes |
Advanced Energy Systems Inc. |
ThP26 |
Design and Fabrication of
thr RHIC Electron-Cooling Experiment High Beta Cavity and Cryomodule |
|
Jens |
Iversen |
DESY |
ThP27 |
Single Cell Cavity Program for the XFEL |
|
Nicolai |
Lobanov |
ANU |
ThP28 |
Report on Superconducting RF Activities at ANU |
|
Donald |
Mitchell |
FNAL |
ThP29 |
Fermilab’s Mechanical
Design and Engineering of the 3.9 GHz, 3rd Harmonic SRF System |
|
Shuichi |
Noguchi |
KEK |
ThP30 |
STF Baseline Cavities and RF Components |
|
|
|
|
ThP31 |
Abstract withdrawn |
|
Robby |
Tanner |
CLS |
ThP32 |
Canadian Light Source Storage Ring RF System |
|
Chaoen |
Wang |
NSRRC |
ThP33 |
Status and Development of
the Superconductivity RF at NSRRC |
|
Baocheng |
Zhang |
Peking University |
ThP34 |
The Progress Report at Peking University |
|
Jean-Luc |
Biarotte |
IPN Orsay |
ThP35 |
A European Advanced
Technology Programme for ADS Accelerator Development |
|
Catherine |
Thomas-Madec |
Synchrotron SOLEIL |
ThP36 |
HIGH POWER (35 KW AND 190
KW) SOLID STATE AMPLIFIERS FOR THE SOLEIL SYNCHROTRON |
|
Walter |
Hartung |
MSU |
ThP37 |
Cryomodule Development at
Michigan State University for the Rare Isotope Accelerator |
|
Joel |
Fuerst |
ANL |
ThP38 |
Status of the ATLAS Upgrade Cryomodule |
|
Eiji |
Kako |
KEK |
ThP39 |
Pulsed Operation of the
972MHz Prototype Cryomodule for ADS Superconducting Linac |
|
Robert |
Laxdal |
TRIUMF |
ThP40 |
Magnetic Effects in the ISAC-II Cryomodule |
|
Matthias |
Liepe |
Cornell University |
ThP41 |
The CW Cornell ERL Injector Cryomodule |
|
Marc |
Louvet-Monsanglant |
Synchrotron SOLEIL |
ThP42 |
Design of the Liquid
Helium Supply Unit of the SOLEIL Superconducting RF System |
|
Paolo |
Pierini |
INFN-Milano |
ThP43 |
The Wire Position Monitor
(WPM) as a Sensor for Mechanical Vibration for TTF Cryomodules |
|
Tom |
Powers |
TJNAF |
ThP44 |
Commissioning and
Operational Experience With an Intermediate Upgrade Cryomodule for the CEBAF
12 GeV Upgrade |
|
Catherine |
Thomas-Madec |
Synchrotron SOLEIL |
ThP45 |
Successful RF and
Cryogenic Tests of the SOLEIL Cryomodule |
|
Robert |
Rimmer |
TJNAF |
ThP46 |
The JLab
Ampere-Class cryomodule |
|
Quan-sheng |
Shu |
AMAC International Inc. |
ThP47 |
Development and Testing
of RF Double Window Input Power Couplers for TESLA |
|
|
Hassen |
Jenhani |
LAL Orsay |
ThP48 |
Preparation and
Conditioning of the TTF VUV-FEL Power Couplers |
|
Yoon |
Kang |
ORNL |
ThP49 |
RF Processing of Couplers
for the SNS Superconducting Cavities |
|
Timergali |
Khabiboulline |
FNAL |
ThP50 |
Power Couplers Design for
Third Harmonic and Spoke Cavities at Fermilab |
|
Hiroshi |
Matsumoto |
KEK |
ThP51 |
A New Design for The
ILC-45MV/m Cavity Input Coupler |
|
Shinji |
Mitsunobu |
KEK |
ThP52 |
High Power Test of Input
Couplers and HOM dampers for KEKB
Superconducting Cavity |
|
Mehdi |
Souli |
IPN Orsay |
ThP53 |
Study of Thermal
Interaction Between a CW 150 kW Power Coupler and a Superconducting 700 MHz
Elliptical Cavity |
|
Vadim |
Veshcherevich |
Cornell University |
ThP54 |
Design of High Power
Input Coupler for Cornell ERL Injector Cavities |
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Jacek |
Sekutowicz |
DESY |
ThP55 |
A Beam Line HOM Absorber
for The European XFEL linac |
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Harald |
Hahn |
BNL |
ThP56 |
R-square Impedance of ERL Ferrite HOM absorber |
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Matthias |
Liepe |
Cornell University |
ThP57 |
Broadband HOM absorber for the Cornell ERL |
|
Genfa |
Wu |
TJNAF |
ThP58 |
Electromagnetic simulations of coaxial type HOM coupler |
|
Salman |
Tariq |
FNAL |
ThP59 |
FNAL 3.9 GHz HOM Coupler
& Coaxial Cable Thermal FEA |
|
Mohammed |
Fouaidy |
IPN Orsay |
ThP60 |
Electromechanical,
Thermal Properties and Radiation Hardness Tests of Piezoelectric Actuators at
Low Temperature |
|
Yasuo |
Higashi |
KEK |
ThP61 |
Coaxial ball screw tuner for ICHRO 9-cell cavity |
|
Paolo |
Pierini |
INFN-Milano |
ThP62 |
Characterization of an
elliptical low beta multicell structure for pulsed operation |
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Tomasz |
Plawski |
TJNAF |
ThP63 |
Digital Cavity Resonance
Monitor – Alternatively Way to Measure Cavity Microphonics |
|
Tom |
Powers |
TJNAF |
ThP64 |
Transient Microphonic
Effects In Superconducting Cavities |
|
Herve |
Saugnac |
IPN Orsay |
ThP65 |
Cold Tuning Sysytem for
700 MHz Elliptical Superconducting Cavity for Protons |
|
Matthias |
Liepe |
Cornell University |
ThP66 |
Pushing the Limits: RF Field Control at High Loaded Q |
|
Matthias |
Liepe |
Cornell University |
ThP67 |
Experience with the New
Digital RF Control System at the CESR Storage Ring |
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Friday,
July 15: Invited talks |
|
|
Richard |
York |
MSU |
FrA01 |
The Rare Isotope Accelerator (RIA) |
|
G. William |
Foster |
FNAL |
FrA02 |
Proton Driver (not submitted) |
|
Marco |
di Giacomo |
CEA-GANIL-SPIRAL2 |
FrA03 |
Status of the SPIRAL 2 project at GANIL |
|
Mike |
Dykes |
ASTeC Daresbury |
FrA04 |
ERL workshop review (not submitted) |
|
John |
Corlett |
LBNL |
FrA05 |
Future FEL's |
|
Klaus |
Floettmann |
DESY |
FrA06 |
European X-FEL Project |
|
Gerald |
Dugan |
Cornell University |
FrA07 |
Accelerator Physics Challenges of the ILC (not submitted) |
|
Maury |
Tigner |
Cornell University |
FrA08 |
Challenges of International Collaboration (not submitted) |
|
B. |
Barish |
Caltech |
FrA09 |
GDE Expectations from SRF Community (not submitted) |
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