1999 Workshop on RF Superconductivity - List of Keywords (cavity)

A B C D E F H I J K L M N P Q R S T V

cavity

Paper	Title	Other Keywords	Page
MOA001	Performance of the LEP 200 Superconducting RF System	LEP, klystron, CERN, HOM	1
	P. Brown, O. Brunner, A. Butterworth, E. Ciapala, H. Frischholz, G. Geschonke, E. Peschardt, J. Sladen CERN, Geneva
MOA002	High-Q, High Gradient Niobium-Coated Cavities at CERN	niobium, CERN, LEP, cathode	6
	S. Calatroni, C. Benvenuti, P. Darriulat, M.A. Peck, A.-M. Valente, C.A. Van't Hof CERN, Geneva
MOA004	Overview of CEBAF Operations and SRF-Related Activities at Jefferson Lab	CEBAF, cryomodule, SRF, controls	15
	C.E. Reece JLAB, Newport News
MOA005	Activities with Superconducting Cavities at DESY	TESLA, linac, DESY, FEL	19
	D. Proch DESY, Hamburg
MOA006	Operating Experience with Superconducting RF at CESR and Overview of Other SRF Related Activities at Cornell University	SRF, cryomodule, vacuum, luminosity	24
	S. Belomestnykh, P. Barnes, E. Chojnacki, R. Ehrlich, R.L. Geng, D. Hartill, R. Kaplan, J. Knobloch, H. Padamsee, S. Peck, P. Quigley, J. Reilly, D. Rubin, D. Sabol, J. Sears, V. Veshcherevich, G. Werner Cornell University, Ithaca, New York
MOP001	Recent Status of the Superconducting Cavities for KEKB	KEK, KEKB, HOM, vacuum	31
	T. Furuya, K. Akai, K. Hara, K. Hosoyama, A. Kabe, Y. Kojima, S. Mitsunobu, Y. Morita, H. Nakai, T. Tajima KEK, Ibaraki
MOP003	RF Superconductivity Activities at LAL	niobium, TESLA, plasma, coupling	37
	J. Le Duff LAL, Orsay
MOP004	SRF Activities at IPN Orsay	niobium, proton, SRF, cryogenics	41
	M. Fouaidy IN2P3-CNRS, Orsay
MOP005	Status of the LANL Activities in the Field of RF Superconductivity	controls, vacuum, LANL, superconducting-cavity	46
	F.L. Krawczyk, R. Bibeau, B. Campbell, D. Chan, M. Cola, K. Cummings, R. Edwards, G. Ellis, D.C. Gautier, R.C. Gentzlinger, J.G. Gioia, W.B. Haynes, D. Katonak, J.P. Kelley, R.E. Lujan, M.A. Madrid, R.R. Mitchell, D. Montoya, E. Newman, W. Roybal, E.N. Schmierer, A. Shapiro, B.G. Smith, R. Valicenti, J. Waynert LANL, Los Alamos, New Mexico B. Rusnak, S. Shen LLNL, Livermore, California R.P. Walsh National High Magnetic Field Laboratory, Tallahassee, Florida
MOP006	Research and Development in the Field of SCRF at INFN-LNL	rfq, linac, CERN, ion	50
	A.M. Porcellato, V. Andreev, G. Bassato, G.P. Bezzon, G. Bisoffi, F. Chiurlotto, M. Comunian, A. Facco, A. Lombardi, I. Kulik, M.F. Moisio, A. Pisent, V. Palmieri, S.Y. Stark, W. Venturini, V. Zviagintsev INFN/LNL, Legnaro, Padova
MOP007	RF Superconductivity at INFN-Genoa	CERN, niobium, linac, superconductivity	54
	R. Parodi INFN Genova, Genova
MOP008	Superconducting RF Activities at INFN Milano-LASA	linac, cryomodule, TESLA, TTF	58
	C. Pagani INFN Milano, Milano
MOP012	Operation of the S-DALINAC, Related Topics and Developments	electron, scattering, linac, recirculation	65
	H.-D. Gräf, M. Brunken, S. Döbert, H. Genz, M. Gopych, S. Khodyachykh, S. Kostial, U. Laier, H. Loos, A. Richter, S. Richter, B. Schweizer, A. Stascheck, O. Titze TU Darmstadt, Darmstadt R. Eichhorn GSI, Darmstadt
TUA001	Electropolishing and in-situ Baking of 1.3 GHz Niobium Cavities	KEK, SRF, CERN, DESY	74
	L. Lilje, D. Reschke, K. Twarowski DESY, Hamburg P. Schmüser Universität Hamburg, Hamburg D. Bloess, E. Chiaveri, E. Haebel, H. Preis, J.-M. Tessier, H. Wenninger CERN, Geneva J.P. Charrier, H. Safa CEA-Saclay, Gif-sur-Yvette
TUA004	High-Field Q Slope in Superconducting Cavities due to Magnetic Field Enhancement at Grain Boundaries	niobium, simulation, electron, KEK	77
	J. Knobloch, R.L. Geng, H. Padamsee Cornell University, Ithaca, New York M. Liepe DESY, Hamburg
TUA005	Advances in RF Control for High Gradients	controls, TESLA, resonance, feedback	92
	S.N. Simrock DESY, Hamburg
TUA006A	Mass Production of High Purity Niobium	niobium, TESLA, DESY, vacuum	96
	B. Spaniol, U. Weitzel-Hoefler W.C. Heraeus GmbH & Co, Hanau
TUA007	Quality Control and Purification Heat Treatment of Niobium for TTF	TTF, controls, TESLA, niobium	103
	W. Singer, A. Brinkmann, D. Hui, H. Kaiser, D. Proch, X. Singer DESY, Hamburg
TUA008	Alternative Approaches for Surface Treatment of Nb Superconducting Cavities	niobium, KEK, ion, superconductivity	109
	C.Z. Antoine, A. Aspart, J.P. Charrier, H. Safa, B. Visentin CEA-Saclay, Gif-sur-Yvette
TUA010	Recent Developments in SRF Cavity Cleaning Techniques at KEK	KEK, niobium, superconductivity, SRF	118
	K. Saito KEK, Ibaraki
TUP002	Status Report on RFSC ANU	linac, controls, superconductivity, cathode	124
	N.R. Lobanov, D.C. Weisser ANU, Canberra
TUP003	Lead Plating: ANU SLRs Upgrade	electron, superconductivity, linac, vacuum	129
	N.R. Lobanov, D.C. Weisser ANU, Canberra
TUP005	Magnetic Field Effects on Superconducting Cavity	niobium, KEK, solenoid, superconducting-cavity	143
	M. Ono, E. Kako, K. Saito, T. Shishido, S. Noguchi, T. Yokoi KEK, Ibaraki
TUP006	Flux-Gate Magnetometry: The Possibility to Apply a Novel Tool to Monitor Niobium Chemistry	niobium, monitoring, vacuum, TESLA	153
	V. Palmieri, F. Stivanello INFN/LNL, Legnaro, Padova M. Valentino INFM, Napoli
TUP007	New Aspects of Quality Control during Preparation of TTF 1.3 GHz Cavities	vacuum, controls, niobium, TESLA	159
	D. Reschke DESY, Hamburg
TUP008	Analysis of the Losses of Superconducting Cavities as a Function of Field and Temperature	electron, niobium, superconducting-cavity, CERN	163
	R. Parodi, R. Ballantini, A. Daccà, G. Gemme INFN Genova, Genova
TUP009	Two Coupled Superconducting Cavities as a Gravitational Wave Detector: First Experimental Results	coupling, resonance, niobium, superconducting-cavity	167
	G. Gemme, R. Parodi INFN Genova, Genova Ph. Bernard CERN, Geneva E. Picasso Scuola Normale Superiore, Pisa
TUP010	On Line Performance and Upgrading of ALPI Resonators	linac, ion, cryogenics, controls	174
	A.M. Porcellato, L. Badan, G. Bassato, A. Beltramin, L. Bertazzo, G. Bisoffi, L. Boscagli, S. Canella, D. Carlucci, S. Contran, T. Contran, A. Dainelli, M. De Lazzari, A. Facco, V. Palmieri, M. Poggi, F. Poletto, S.Y. Stark, F. Stivanello, V. Zviagintsev INFN/LNL, Legnaro, Padova
TUP011	Improvement of Cavity Performance in the Saclay/Cornell/DESY's SC Cavities	KEK, DESY, niobium, superconducting-cavity	179
	E. Kako, S. Noguchi, M. Ono, K. Saito, T. Shishido KEK, Ibaraki H. Safa CEA-Saclay, Gif-sur-Yvette J. Knobloch Cornell University, Ithaca, New York L. Lilje DESY, Hamburg
TUP013	Measurements of the Effective Electrodynamical Parameters of Nb Microstrip Resonator	resonance, shielding, higher-order-mode, niobium	190
	A.L. Karuzskii, V.A. Dravin, A.E. Krapivka, N.A. Osipova, A.V. Perestoronin Lebedev Physical Institute, Moscow
TUP014	Low Temperature Tensile and Fracture Toughness Properties of SCRF Cavity Structural Materials	niobium, vacuum, cryogenics, electron	195
	V.T. Toplosky, R.P. Walsh National High Magnetic Field Laboratory, Tallahassee, Florida R.C. Gentzlinger, R.R. Mitchell LANL, Los Alamos, New Mexico
TUP015	Cavity Baking : A Cure for the High Accelerator Field Q_o Drop	niobium, DESY, electron, feedback	198
	B. Visentin, J.P. Charrier, B. Coadou, D. Roudier CEA-Saclay, Gif-sur-Yvette
TUP016	Completion of the LNL Bulk Niobium Low Beta Quarter Wave Resonators	linac, heavy-ion, ion, niobium	203
	A. Facco, V. Zviagintsev INFN/LNL, Legnaro, Padova
TUP017	The Superconducting Cavity Database for the TESLA Test Facility	linac, TTF, TESLA, superconducting-cavity	207
	W.-D. Möller, P.-D. Gall, A. Gössel, V. Gubarev, M. Pekeler DESY, Hamburg
TUP018	Improvement of the Maximum Field of Accelerating Cavities by Dry Oxidization	niobium, electron, superconductivity, vacuum	211
	R. Parodi, R. Ballantini, A. Daccà, G. Gemme INFN Genova, Genova L. Mattera INFM Genova, Genova
TUP019	Development of a Cryomodule for the CEBAF Upgrade	CEBAF, cryomodule, HOM, linac	218
	J.R. Delayen JLAB, Newport News
TUP020	Accelerating Field Measurement in 3GHz Pulsed Cavities	electron, niobium, SLAC, klystron	234
	C. Thomas, G. Bienvenu, J. Le Duff LAL, Orsay
TUP021	Micro-Structures of RF Surfaces in the Electron-Beam-Weld Regions of Niobium	niobium, electron, superconducting-cavity, superconductivity	238
	R.L. Geng, J. Knobloch, H. Padamsee Cornell University, Ithaca, New York
TUP022	Test Results of the L-Band Superconducting Cavity made from Twice Melted Niobium	niobium, KEK, superconducting-cavity, accelerating-gradient	246
	T. Shishido, T. Fujino, H. Inoue, E. Kako, S. Noguchi, M. Ono, K. Saito KEK, Ibaraki T. Higuchi Nomura Plating Co. Ltd., Tochigi-ken
TUP023	A Device to Measure the Resistivity of a Copper Cavity Surface at Low Temperature	niobium, CERN, coupling, insertion	249
	W. Weingarten, H. Nakai CERN, Geneva
TUP025	Development of Horizontal Chemical Polishing for Superconducting Niobium Cavities	niobium, KEK, resonance, target	254
	T. Higuchi, S. Fukuda, T. Ikeda, S. Nomura, S. Ogushi, M. Shiratake, T. Suzuki Nomura Plating Co. Ltd., Tochigi-ken E. Kako, S. Noguchi, M. Ono, K. Saito, T. Shishido KEK, Ibaraki
TUP027	Modal Survey of Medium Energy Superconducting Radio Frequency Cavity for Accelerator Production of Tritium Project	damping, survey, cryomodule, vacuum	258
	G. Ellis, B.G. Smith LANL, Los Alamos, New Mexico
TUP028	Kapitza Conductance and Thermal Conductivity of Materials used for SRF Cavities Fabrication	niobium, SRF, radiation, vacuum	263
	M. Fouaidy, S. Bousson, N. Hammoudi, T. Junquera, J.C. Le Scornet, J. Lesrel IN2P3-CNRS, Orsay
TUP029	Specific Resistance Measurement of a Single Grain Boundary in Pure Niobium	niobium, electromagnetic-fields, radio-frequency, superconducting-cavity	267
	H. Safa, M. Boloré, Y. Boudigou, S. Jaidane, R. Keller, P. Nardin, G. Szegedi CEA-Saclay, Gif-sur-Yvette
TUP030	Long Term Air Exposure Effect on the Electropolished Surface of Niobium Superconducting RF Cavity	niobium, KEK, electron, vacuum	270
	K. Saito, E. Kako, T. Shishido, S. Noguchi, M. Ono, Y. Yamazaki KEK, Ibaraki
TUP031	Temperature Dependence of the Surface Resistance of Niobium at 1300 MHz - Comparison to BCS Theory -	niobium, KEK, electron, vacuum	277
	K. Saito KEK, Ibaraki P. Kneisel JLAB, Newport News
TUP032	Discovery of the Needless of Outgas Annealing after Horizontally Continuously Rotated Electropolishing with Niobium Superconducting RF Cavities	niobium, KEK, JAERI, vacuum	283
	K. Saito, E. Kako, S. Noguchi, M. Ono, T. Shishido, Y. Yamazaki KEK, Ibaraki T. Higuchi Nomura Plating Co. Ltd., Tochigi-ken
TUP033	High Gradient Performance by Electropolishing with 1300 MHz Single and Multi-cell Niobium Superconducting Cavities	KEK, niobium, CEBAF, DESY	288
	K. Saito, H. Inoue, E. Kako, S. Noguchi, M. Ono, T. Shishido, Y. Yamazaki KEK, Ibaraki T. Higuchi Nomura Plating Co. Ltd., Tochigi-ken M. Kawamoto Pechiney Japon, Ltd., Tokyo T. Ota Toshiba Corporation, Yokohama K. Nakanishi MHI , Kobe Shipyard, Kobe Y. Matsubara Sumitimo Heavy Industries, Ltd., Tokyo P. Kneisel JLAB, Newport News D. Proch, L. Lilje DESY, Hamburg
TUP034	Effect of N₂ Gas Exposure on the L-band Superconducting Cavity	vacuum, superconducting-cavity, KEK, ion	292
	Y. Kijima, H. Kitamura, Y. Murai Mitsubishi Electric Corporation, Kobe E. Kako, S. Noguchi, M. Ono, K. Saito, T. Shishido KEK, Ibaraki
TUP035	Morphological and Chemical Studies of Nb Samples after Various Surface Treatment	niobium, ion, superconductivity, brilliance	295
	C.Z. Antoine, A. Aspart, M. Berthelot, Y. Gasser, J.P. Poupeau, F. Valin CEA-Saclay, Gif-sur-Yvette
TUP036	On Local High Electric Field-Induced Modifications of a Niobium Oxide Surface	niobium, electron, vacuum, superconductivity	304
	I. Arfaoui, J. Cousty, H. Safa CEA-Saclay, Gif-sur-Yvette
TUP037	A Vibration Damper for a Low Velocity Four Gap Accelerating Structure	ATLAS, controls, damping, superconducting-cavity	309
	A. Facco INFN/LNL, Legnaro, Padova K.W. Shepard, G.P. Zinkann ANL, Argonne
TUP040	Non-uniformities in Hydrogen and Oxygen Concentration in Niobium Films	niobium, ion, vacuum, superconductivity	312
	W.R. Frisken York University, Toronto L.N. Hand Cornell University, Ithaca
TUP042	Fracture Toughness and Mechanical Properties of Pure Niobium and Welded Joints for Superconducting Cavities at 4K	JAERI, niobium, linac, superconducting-cavity	319
	K. Mukugi, K. Ishio, K. Kikuchi, J. Kusano, M. Mizumoto, A. Naito, N. Ouchi, Y. Tsuchiya JAERI, Ibaraki K. Saito KEK, Ibaraki
TUP043	New Approaches to Tuning of TESLA Resonators	TESLA, linac, TTF, DESY	324
	H. Kaiser DESY, Hamburg
TUP044	Preliminary Experience with in-situ Baking of Niobium Cavities	niobium, KEK, superconductivity, CEBAF	328
	P. Kneisel JLAB, Newport News
WEA001	Design of a Proton Superconducting Linac for a Neutron Spallation Source	linac, cryomodule, focusing, klystron	336
	T.P. Wangler, J.H. Billen, J.P. Kelley, F.L. Krawczyk, S. Nath, D.L. Schrage, R. Valicenti LANL, Los Alamos, New Mexico K.R. Crandall Tech Source, Santa Fe H. Padamsee Cornell University, Ithaca, New York
WEA002	SC Driver Linac for a Rare Isotope Facility	linac, ion, RIA, ECR	345
	K.W. Shepard, M. Kedzie, M.P. Kelly, J. Nolen, P. Ostroumov, M. Portillo ANL, Argonne J. Brawley, J.R. Delayen, C. Hovater, J. Mammosser, C. Piller JLAB, Newport News C.M. Lyneis, J.W. Staples LBNL, Berkeley, California
WEA003	The CERN Nb/Cu Programme for the LHC and Reduced-β Superconducting Cavities	LEP, LHC, cryomodule, CERN	352
	E. Chiaveri CERN, Geneva
WEA005	Superconducting Proton Linac for Waste Transmutation	proton, cryogenics, superconducting-cavity, rfq	357
	H. Safa CEA-Saclay, Gif-sur-Yvette
WEA006	A Report on Fermilab SRF Activities and Proposals	kaon, superconducting-cavity, TESLA, linac	362
	H.T. Edwards Fermilab, Batavia
WEP001	Completion of the First Superconducting RFQ at INFN-LNL	vacuum, rfq, niobium, linac	367
	G. Bisoffi, V. Andreev, G.P. Bezzon, F. Chiurlotto, A. Lombardi, V. Palmieri, A.M. Porcellato, S.Y. Stark INFN/LNL, Legnaro, Padova E. Chiaveri CERN, Geneva
WEP002	Promising Performance of the Nb/Cu Clad Seamless Superconducting RF Cavities	niobium, KEK, superconducting-RF, superconducting-cavity	372
	T. Fujino, K. Saito, H. Inoue, N. Hitomi, S. Noguchi, M. Ono, E. Kako, T. Shishido, Y. Yamazaki KEK, Ibaraki V. Palmieri INFN/LNL, Legnaro, Padova
WEP003	HOM Coupler Developments for the SC Linac of JAERI/KEK Joint Project	HOM, JAERI, simulation, linac	376
	M. Matsuoka, K. Nakanishi, K. Okubo, K. Sennyu, T. Yamanaka MHI, Yokohama, Kanagawa-ken N. Akaoka, J. Kusano, M. Mizumoto, N. Ouchi JAERI, Ibaraki S. Noguchi KEK, Ibaraki
WEP004	Cavity Design Tools and Applications to the TRASCO Project	linac, coupling, proton, controls	380
	P. Pierini, D. Barni, A. Bosotti, G. Ciovati, C. Pagani INFN Milano, Milano
WEP005	704 MHz Superconducting Cavities for a High-Intensity Proton Accelerator	niobium, proton, linac, coupling	384
	J.L. Biarrotte, H. Safa, J.P. Charrier, S. Jaidane CEA-Saclay, Gif-sur-Yvette H. Gassot, T. Junquera, J. Lesrel IN2P3-CNRS, Orsay G. Ciovati, P. Pierini, D. Barni, C. Pagani INFN Milano, Milano
WEP008	Modeling Secondary Emission in a Finite-Element Multipactor Code	electron, simulation, vacuum, multipactoring	390
	S. Humphries University of New Mexico, Albuquerque J. Petillo SAIC, Burlington, Massachusetts N. Dionne Raytheon Corporation, Sudbury, Massachusetts
WEP009	Completion of the SOLEIL Cryomodule	HOM, CERN, SOLEIL, cryomodule	397
	P. Bosland, P. Brédy, S. Chel, M. Juillard, M. Maurier, A. Mosnier, F. Orsini CEA-Saclay, Gif-sur-Yvette D. Boussard, S. Calatroni, E. Chiaveri, R. Losito CERN, Geneva
WEP012	Development of a 1.8K Level Cooling System and Cryostat for a Superconducting Cavity	cryomodule, niobium, superconducting-cavity, cryogenics	401
	N. Kakutani, H. Hatakeyama, T. Kuriyama, Y. Oonishi, T. Ota, M. Takahashi, O. Takeda, Y. Tanabe, A. Yamashita, T. Yoshiyuki Toshiba Corporation, Yokohama E. Kako, S. Noguchi, M. Ono, K. Saito, T. Shishido, Y. Yamazaki KEK, Ibaraki
WEP013	Structural Analysis of the APT Superconducting Cavities	niobium, vacuum, LANL, cryogenics	405
	R.R. Mitchell, M. Cola, G. Ellis, R.C. Gentzlinger LANL, Los Alamos, New Mexico
WEP014	Beta Tunable 700 MHz Insert with Natural Convection Precooling	vacuum, simulation, niobium, linac	422
	D. Barni, C. Gesmundo, C. Pagani, G. Varisco INFN Milano, Milano
WEP015	Design and Test of a 1.3 GHz Travelling Wave Window	vacuum, electron, TESLA, pick-up	427
	C. Travier, S. Chel, M. Desmons, G. Devanz CEA-Saclay, Gif-sur-Yvette P. Lepercq, T. Garvey IN2P3-CNRS, Orsay
WEP016	Production of Nb/Cu Sputtered Superconducting Cavities for LHC	CERN, LHC, niobium, superconducting-cavity	437
	H. Vogel, S. Bauer, W. Diete, B. Griep, M. Peiniger, P. vom Stein ACCEL, Bergisch Gladbach S. Calatroni, E. Chiaveri, R. Losito CERN, Geneva
WEP017	Production of Superconducting 9-cell Cavities for the TESLA Test Facility, Stanford University and Forschungszentrum Rossendorf	TESLA, niobium, DESY, electron	440
	H. Vogel, S. Bauer, W. Diete, B. Griep, M. Peiniger, M. Pekeler, J. Schwellenbach, P. vom Stein ACCEL, Bergisch Gladbach
WEP018	Engineering and Fabrication of a Low β Prototype Superconducting Accelerator Module for Forschungszentrum Jülich	cryomodule, niobium, radiation, CERN	443
	H. Vogel, S. Bauer, W. Diete, B. Griep, M. Peiniger, M. Pekeler, P. vom Stein ACCEL, Bergisch Gladbach W. Bräutigam FZJ, Jülich E. Chiaveri, R. Losito CERN, Geneva
WEP019	Development of Seamless Niobium Cavities for Accelerator Application	niobium, controls, electron, superconductivity	446
	P. Kneisel JLAB, Newport News V. Palmieri INFN/LNL, Legnaro, Padova K. Saito KEK, Ibaraki
WEP020	Superconducting Cavity Development for High Intensity Proton Linac in JAERI	linac, simulation, controls, proton	450
	N. Ouchi, N. Akaoka, E. Chishiro, K. Hasegawa, M. Mizumoto, J. Kusano JAERI, Ibaraki H. Inoue, E. Kako, S. Noguchi, M. Ono, K. Saito, T. Shishido KEK, Ibaraki K. Mukugi, C. Tsukishima MELCO, Kobe O. Takeda Toshiba Corporation, Yokohama M. Matsuoka MHI, Yokohama, Kanagawa-ken
WEP021	APT Cryomodule Assembly and the Usefulness of the Mockup Model	cryomodule, vacuum, CERN, shielding	459
	E. Newman, B. Campbell, K.C.D. Chan, R. Valicenti LANL, Los Alamos, New Mexico
WEP022	Development of a Superconducting H-mode Cavity for the Low-Beta Regime	linac, ion, quadrupole, acceleration	462
	R. Eichhorn, U. Ratzinger GSI, Darmstadt
WEP023	Review of Superconducting RF Technology for High-Power Proton Linacs	linac, proton, cryomodule, superconducting-RF	465
	K.C.D. Chan LANL, Los Alamos, New Mexico H. Safa CEA-Saclay, Gif-sur-Yvette C. Pagani INFN Milano, Milano M. Mizumoto JAERI, Ibaraki
WEP024	Mechanical Stiffening of SRF Niobium Cavities by Thermal Sprayed Coating	niobium, TESLA, SRF, plasma	472
	H. Gassot, A. Caruette, T. Junquera, J.L. Borne, L. Grandsire, A. Thiébault IN2P3-CNRS, Orsay C. Verdy, C. Coddet Université de Technologie de Belfort-Montéliard, Belfort M. Jeandin, V. Guipont Ecole Nationale Supérieure des Mines de Paris, Paris
WEP025	CRYHOLAB, A New Horizontal Test Cryostat for SCRF Cavities	vacuum, radiation, cryogenics, TESLA	478
	H. Saugnac, P. Blache, C. Commeaux, G. Guillier, T. Junquera, D. Braud, H. Safa IN2P3-CNRS, Orsay P. Sahuquet CEA-Saclay, Gif-sur-Yvette
WEP027	Manufacturing Techniques of Full Scale Crab Cavities and a Simplified Co-Axial Coupler for KEKB	KEK, KEKB, electron, niobium	481
	H. Hattori, M. Inoue, K. Ohkubo, K. Sennyu, T. Yamanaka MHI, Hyogo-ku, Kobe Y. Taura MHI, Nishi-ku, Hiroshima T. Ohta MHI, Arai-cho, Takasago K. Hosoyama, T. Nakai KEK, Ibaraki
WEP028	High Force, Precision Positioning Using Magnetic Smart Materials	SRF, controls, electron, cryogenics	484
	C. Joshi, B. Bent Energen Inc, Billerica, Massachusetts M. Drury, J. Preble, V. Nguyen JLAB, Newport News
WEP029	Nb Prototype of the Superstructure for the TESLA Linear Collider	TESLA, HOM, TTF, collider	490
	R. Bandelmann, H. Kaiser, G. Kreps, M. Liepe, C. Martens, A. Matheisen, H-B. Peters, D. Proch, J. Sekutowicz, W. Singer DESY, Hamburg C. Pagani INFN Milano, Milano
WEP030	RF Measurements on Cu Model of the Superstructure for the TESLA Linear Collider	HOM, damping, TESLA, TTF	494
	M. Liepe, H. Chen, G. Kreps, V. Puntus, J. Sekutowicz DESY, Hamburg M. Ferrario INFN/LNF, Frascati (Roma)
WEP031	Half-cell and Dumb-bell Frequency Testing for the Correction of the TESLA Cavity Length	controls, resonance, TTF, TESLA	499
	G. Kreps, D. Proch, J. Sekutowicz DESY, Hamburg
WEP032	High Power Input Coupler for KEKB SC Cavity	KEK, KEKB, superconducting-cavity, vacuum	505
	S. Mitsunobu, T. Furuya, T. Tajima KEK, Ibaraki T. Kijima Mitsubishi Electric Corporation, Kobe T. Tanaka Furukawa Electric Co, Tokyo
WEP033	Dissimilar Welds for the APT Superconducting Cavity's Cryogenic Plumbing System	electron, superconducting-cavity, cryogenics, cryomodule	508
	M. Cola, R.M. Dickerson, R.C. Gentzlinger, D.F. Teter LANL, Los Alamos, New Mexico
WEP034	Production and Test of the Prototype β=0.85 Five Cell Cavity for the TRASCO Project	LEP, niobium, electron, CERN	512
	R. Parodi, A. Daccà, G. Gemme INFN Genova, Genova E. Chiaveri, R. Losito, S. Calatroni CERN, Geneva D. Barni, A. Bosotti, C. Pagani, G. Varisco INFN Milano, Milano
WEP036	A Spoke RF Cavity Simulation with MAFIA	simulation, coupling, linac, impedance	516
	E. Zaplatin FZJ, Jülich
WEP037	Beam Energy Loss versus Velocity in SC Cavities for SNS Linac	SNS, linac, ion, resonance	520
	S.S. Kurennoy LANL, Los Alamos, New Mexico
WEP038	Dealing with a Large Installation of SRF Cavities: Characterizing Limitations and Exploiting Operational Flexibility	linac, CEBAF, SRF, cryogenics	524
	C.E. Reece, B.D. Madre, L.R. Doolittle, J.R. Delayen JLAB, Newport News
WEP042	Hydroforming of Back Extruded Niobium Tubes	TESLA, neutron, simulation, niobium	528
	H. Kaiser, W. Singer, X. Singer DESY, Hamburg I. Gonin, I. Jelezov, T. Khabibuline INR, Moscow H.-G. Brokmeier, R. Schnieber Institut für Werkstofforschung, Geesthacht
THA001	Spinning of TESLA-Type Cavities: Status of Art	niobium, KEK, DESY, TESLA	532
	V. Palmieri INFN/LNL, Legnaro, Padova
THA002	Advances at DESY in Hydroforming of TESLA Cavities	niobium, simulation, DESY, TESLA	538
	H. Kaiser, W. Singer, X. Singer DESY, Hamburg I. Gonin, I. Jelezov, T. Khabibuline INR, Moscow
THA003	Advances in Superconducting RF Cavity Stiffening by Thermal Spraying	TESLA, niobium, plasma, SRF	542
	S. Bousson IPN, Orsay
THA004	Study of the Residual Resistance of Superconducting Niobium Films at 1.5 GHz	niobium, electron, CERN, cathode	550
	A.-M. Valente, C. Benvenuti, S. Calatroni, P. Darriulat, M.A. Peck, C.A. Van't Hof CERN, Geneva
THA005	Advances in Cryomodule Design and New Approches	cryomodule, TESLA, alignment, quadrupole	555
	C. Pagani INFN Milano, Milano
THA006	RF Power Coupler Performance at CESR and Study of a Multipactor Inhibited Coupler	SRF, vacuum, multipactoring, electron	560
	E. Chojnacki, S. Belomestnykh Cornell University, Ithaca, New York
THA008	The Variable Power Coupler for the LHC Superconducting Cavities	LHC, multipactoring, vacuum, impedance	566
	H.P. Kindermann, M. Stirbet CERN, Geneva
THA009	Testing Status of the Superconducting RF Power Coupler for the APT Accelerator	vacuum, cryomodule, ion, controls	570
	W.B. Haynes, K.C.D. Chan, D.C. Gautier, J.G. Gioia, F.L. Krawczyk, R.E. Lujan, M.A. Madrid, E.N. Schmierer LANL, Los Alamos, New Mexico B. Rusnak LLNL, Livermore
THA010	High Power Coupler for the TESLA Test Facility	TESLA, TTF, vacuum, TTF2	577
	W.-D. Möller DESY, Hamburg
THP003	Which Way to the Frontier? Novel Structures, Materials, and Fabrication Techniques	CERN, niobium, SRF, KEK	582
	D. Proch DESY, Hamburg
FRA006	SRF for Muon Colliders	collider, klystron, linac, acceleration	587
	H. Padamsee Cornell University, Ithaca, New York
FRA002	High Power FELs Driven by RF Superconducting Linacs	FEL, SRF, electron, linac	593
	G.R. Neil JLAB, Newport News
FRA005	ELFE at CERN	CERN, LEP, linac, electron	602
	H. Burkhardt CERN, Geneva
FRA003	TESLA Project Overview	collider, TESLA, linac, linear-collider	605
	D. Trines DESY, Hamburg