SRF 2001 - List of Keywords (cavity)

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

cavity

Paper	Title	Other Keywords	Page
TL001	Superconducting RF Activities at Argonne National Laboratory	linac, ion, niobium, superconducting-rf	1
	M.P. Kelly ANL, Argonne, Illinois
TL002	Superconducting RF Activities at ANU	linac, superconductivity, cryogenics, electron	6
	N.R. Lobanov, D.C. Weisser, T. Kibédi, D. Anderson, A.K. Cooper, D. Gibson, J. Heighway, A.G. Muirhead, R.B. Turkentine Australian National University, Canberra
TL004	Report on Superconducting RF Activities at CERN	superconducting-cavity, linac, proton, acceleration	11
	R. Losito CERN, Geneva
TL005	Cornell Status Report	electron, SRF, cathode, linac	15
	H. Padamsee, S. Belomestnykh, R. Geng, J. Knobloch, V. Shemelin, G.R. Werner, Z. Yang Cornell University, Ithaca, New York
TL006	Superconducting CH-Cavities for Low- and Medium Beta Ion and Proton Accelerators	accelerating-gradient, ion, superconductivity, simulation	20
	R. Eichhorn GSI, Darmstadt U. Ratzinger, C. Peschke Institut für Angewandte Physik, Fankfurt am Main
TL007	Status of the RF Superconductivity Activities at DESY	FEL, linac, superconductivity, vacuum	24
	A. Matheisen DESY, Hamburg
TL009	SC Accelerator Components for Light Ion Linacs	linac, ion, proton, injection	29
	W. Bräutigam, O. Felden, M. Glende, H. Jungwirth, A. Lehrach, R. Maier, S. Martin, A. Schnase, Y. Senichev, R. Stassen, R. Tölle, E. Zaplatin FZJ, Jülich A. Facco, V. Zviagintsev INFN/LNL, Legnaro, Padova
TL010	Superconducting RF Project at the Synchrotron Radiation Research Center	SRF, cryogenics, vacuum, synchrotron	34
	Ch. Wang, L.H. Chang, S.S. Chang, F.Z. Hsiao, M.C. Lin, G.H. Luo, T.T. Yang, M.S. Yeh, C.C. Kuo, R. Sah, C.T. Chen NSRRC, Hsinchu
TL011	Status on RF Superconductivity at the Institute for High Energy Physics	SRF, controls, superconductivity, cathode	39
	L.M. Sevryukova IHEP Protvino, Moscow Region
TL012	ARCO Project Status Report	cathode, electron, vacuum, ion	44
	R. Russo, L. Catani, S. Tazzari INFN-Roma II, Roma M. Cirillo, V. Merlo Università di Roma Tor Vergata, Rome J. Langner The Andrzej Soltan Institute for Nuclear Studies, Otwock-Swierk F. Tazzioli INFN/LNF, Frascati (Roma)
TL013	RF Superconductivity at INFN-Genova	electron, niobium, simulation, superconductivity	49
	R. Ballantini, A. Chincarini, G. Gemme, R. Parodi, A. Podesta INFN/Genova, Genoa
TL014	Superconducting RF Activities at LNL	linac, ion, superconductivity, proton	54
	A. Facco, V. Andreev, G. Bassato, G. Bezzon, G. Bisoffi, S. Canella, F. Chiurlotto, M. Comunian, A. Lombardi, A. Pisent, V. Palmieri, A.M. Porcellato, F. Scarpa, S.Y. Stark, F. Stivanello, V. Zviagintsev INFN/LNL, Legnaro, Padova
TL015	SRF Activities at INFN Milano-LASA	cryomodule, superconductivity, niobium, linac	59
	C. Pagani INFN/LASA, Segrate, Milano
TL016	Overview of Superconducting RF Activities at IPN Orsay	proton, niobium, plasma, superconductivity	63
	S. Bousson IPN, Orsay
TL018	Overview of SRF-related Activities at Jefferson Lab	cryomodule, SRF, controls, FEL	67
	C. Reece TJNAF, Newport News, Virginia
TL019	Status Report of Superconducting RF Activities in KEK	niobium, superconductivity, electron, luminosity	76
	H. Nakai, K. Akai, E. Ezura, T. Fujino, T. Furuya, K. Hara, K. Hosoyama, H. Inoue, A. Kabe, E. Kako, Y. Kojima, S. Mitsunobu, Y. Morita, S. Noguchi, K. Saito, T. Shishido KEK, Ibaraki T. Higuchi Graduate University for Advanced Studies, Ibaraki
TL020	Status of the LANL Activities in the Field of RF Superconductivity	superconductivity, linac, superconducting-cavity, proton	81
	T. Tajima, K.C.D. Chan, R.L. Edwards, R.C. Gentzlinger, W.B. Haynes, J.P. Kelley, F.L. Krawczyk, J.E. Ledford, M.A. Madrid, D.I. Montoya, P.L. Roybal, E.N. Schmierer, D.L. Schrage, A.H. Shapiro LANL, Los Alamos
TL021	Superconducting RF Activities at NSCL	SRF, linac, quadrupole, niobium	86
	T. Grimm, W. Hartung, H. Podlech, R.C. York MSU, East Lansing, Michigan
TL022	Recent Researches on RF Superconductivity in Peking University	niobium, laser, electron, superconductivity	91
	J.K. Hao, K. Zhao, B.C. Zhang, S.W. Quan, L.F. Wang, X.Y. Lu, D.T. Xie, D.L. Xie, F. Zhu, R. Xiang, T.J. Meng, S.L. Huang, A.J. Gu, J.J. Zhuang, J.E. Chen IHIP Beijing, Peking University
TL023	Evolution of the SNS Superconducting Proton Linac	linac, proton, SRF, klystron	95
	Y. Cho ANL, Argonne, Illinois
TL025	Superconducting RF at TRIUMF/ISAC: Present Status and Future Plans	ISAC, linac, TRIUMF, ion	100
	R.E. Laxdal TRIUMF, Vancouver
FA001	MultiPac - Maltipacting Simulation Package with 2D FEM Field Solver	electron, simulation, electromagnetic-fields, radio-frequency	105
	P. Ylä-Oijala Rolf-Nevanlinna Institute, Helsinki D. Proch DESY, Hamburg
FA002	Status of Multipacting Simulation Capabilities for SCRF Applications	simulation, electron, resonance, electromagnetic-fields	108
	F.L. Krawczyk LANL, Los Alamos
FA003	Design Criteria for Elliptical Cavities	coupling, linac, superconductivity, niobium	115
	C. Pagani, D. Barni, A. Bosotti, P. Pierini INFN/LASA, Segrate, Milano G. Ciovati TJNAF, Newport News, Virginia
FA004	Superconducting Radiofrequency Quadrupoles	rfq, ion, heavy-ion, superconductivity	123
	G. Bisoffi INFN/LNL, Legnaro, Padova
FA005	Fundamental Power Couplers for Superconducting Cavities	superconducting-cavity, superconductivity, coupling, simulation	132
	I.E. Campisi TJNAF, Newport News, Virginia
FA006	Final Cleaning and Assembly	superconductivity, controls, vacuum, niobium	144
	D. Reschke DESY, Hamburg
FA007	Medium-ß Superconducting Accelerating Structures	linac, superconductivity, proton, ion	152
	J.R. Delayen TJNAF, Newport News, Virginia
FA008	New Materials for Superconducting Radiofrequency Cavities	superconductivity, niobium, lattice, site	162
	V. Palmieri INFN/LNL, Legnaro, Padova
FA009	Hydroforming of Superconducting TESLA Cavities	superconductivity, simulation, accelerating-gradient, niobium	170
	W. Singer, H. Kaiser, X. Singer, G. Weichert DESY, Hamburg I. Jelezov, T. Khabibuline, A. Skasyrskaia RAS/INR, Moscow P. Kneisel TJNAF, Newport News, Virginia T. Fujino, K. Saito KEK, Ibaraki
FA010	Status of the Superstructure	HOM, cryomodule, damping, superconductivity	177
	J. Sekutowicz, C. Albrecht, R. Bandelmann, B. Dwersteg, J. Eschke, B. Horst, N. Jakubowski, G. Kreps, R. Lange, M. Liepe, J. Lorkiewicz, A. Matheisen, W.-D. Möller, H.-B. Peters, D. Proch, D. Reschke, W. Singer, X. Singer, K. Twarowski, G. Weichert, H. Wenhui, G. Wojtkiewicz DESY, Hamburg M. Ferrario INFN/LNF, Frascati (Roma) C. Pagani INFN/LASA, Segrate, Milano
SA001	Operating Experience with the LEP2 Superconducting RF System	klystron, niobium, luminosity, controls	185
	E. Ciapala, P. Brown, O. Brunner, A. Butterworth, H. Frischholz, G. Geschonke, E. Peschardt, J.P.H. Sladen CERN, Geneva
SA002	Operation Experience of Superconducting Cavities for KEKB	superconducting-cavity, HOM, vacuum, superconductivity	194
	S. Mitsunobu KEK, Ibaraki
SA003	Performance of the CESR Superconducting RF System and Future Plans	cryomodule, vacuum, SRF, superconducting-cavity	197
	S. Belomestnykh, H. Padamsee Cornell University, Ithaca, New York
SA004	Recent Developments in Superconducting RF Free Electron Lasers	FEL, linac, electron, laser	202
	L. Merminga TJNAF, Newport News, Virginia
SA005	Operating Experience with Superconducting Cavities at the TESLA Test Facility	linac, HOM, superconductivity, FEL	212
	W.-D. Möller DESY, Hamburg
SA006	Operation Experience with ALPI Resonators	linac, acceleration, ion, superconductivity	216
	A.M. Porcellato, G. Bassato, G. Bisoffi, S. Canella, A. Dainelli, A. Facco, V. Palmieri, M. Poggi, V. Zviagintsev INFN/LNL, Legnaro, Padova S.Y. Stark Strumenti Scientifici Cinel, Vigonza, Padova S. Kar Nuclear Science Centre, New Delhi
SA007	SPLinac: Computer Simulations of SC Linac RF Systems with Beam	linac, feedback, simulation, superconductivity	225
	J. Tückmantel CERN, Geneva
SA009	Achieving Phase and Amplitude Stability in Pulsed Superconducting Cavities	controls, linac, klystron, resonance	231
	S.N. Simrock DESY, Hamburg
SA010	Lorentz Force Detuning Analysis of the Spallation Neutron Source (SNS) Accelerating Cavities	damping, superconductivity, niobium, radiation	236
	R. Mitchell, K. Matsumoto LANL, Los Alamos G. Ciovati, K. Davis, K. Macha, R. Sundelin TJNAF, Newport News, Virginia
SA011	Dynamic Lorentz Force Compensation with a Fast Piezoelectric Tuner	resonance, controls, cryogenics, coupling	243
	M. Liepe, W.-D. Möller, S.N. Simrock DESY, Hamburg
MA001	Study of a Spoke Cavity for Low-Beta Applications	linac, lattice, proton, cryomodule	246
	G. Olry, J.L. Biarrotte, H. Saugnac, J. Lesrel IPN, Orsay
MA002	CERN Studies on Niobium-coated 1.5 GHz Copper Cavities	niobium, superconductivity, cathode, impedance	252
	C. Benvenuti, S. Calatroni, M. Hakovirta, H. Neupert, M. Prada, A.-M. Valente CERN, Geneva
MA003	Energetic Deposition in Vacuum	niobium, plasma, superconductivity, vacuum	259
	G. Wu Virginia Tech, Blacksburg, Virginia L. Phillips, R. Sundelin, T. Goodman TJNAF, Newport News, Virginia
MA004	DC Field Emission Studies on Nb	vacuum, superconductivity, cathode, high-voltage	264
	T. Wang, C. Reece, R. Sundelin TJNAF, Newport News, Virginia
MA005	Voltage Breakdown on Niobium and Copper Surfaces	cathode, niobium, superconductivity, vacuum	268
	G.R. Werner, H. Padamsee, J.C. Betzwieser, Y.G. Liu, K.H.R. Rubin, J.E. Shipman, L.T. Ying Cornell University, Ithaca, New York
MA007	Surface Studies: Method of Analysis and Results	superconductivity, niobium, lattice, electron	272
	C. Antoine, A. Aspart, S. Regnault CEA, Gif-sur-Yvette A. Chincarini INFN/Genova, Genoa
MA008	High Field Behavior of SCRF Cavities	niobium, superconductivity, superconducting-cavity, cryogenics	279
	H. Safa CEA, Gif-sur-Yvette
MA009	High Accelerating Gradients in 1.3 GHz Niobium Cavities	niobium, accelerating-gradient, superconductivity, vacuum	287
	L. Lilje DESY, Hamburg
MA006	Material Science of Nb RF Accelerator Cavities: Where Do We Stand 2001?	superconductivity, electron, scattering, impedance	292
	J. Halbritter FZK, Karlsruhe
TA001	SRF System in the JAERI-KEK Joint Project	linac, superconductivity, proton, HOM	302
	S. Noguchi KEK, Ibaraki
TA002	TESLA	collider, linear-collider, electron, positron	308
	D. Trines DESY, Hamburg
TA003	The U. S. RIA Project SRF Linac	linac, ion, superconductivity, cryomodule	313
	K.W. Shepard ANL, Argonne, Illinois
TA004	Superconducting Technologies for the Advanced Accelerator Applications Program	linac, proton, neutron, target	318
	R.L. Sheffield LANL, Los Alamos
TA005	A High-Power Superconducting H^- Linac (SPL) at CERN	linac, proton, klystron, factory	322
	E. Chiaveri CERN, Geneva
TA007	SRF for Neutrino Factories	factory, superconductivity, linac, acceleration	327
	H. Padamsee Cornell University, Ithaca, New York
TA008	CEBAF at 12 & 25 GeV	cryomodule, linac, beam-transport, klystron	332
	L. Harwood, C. Reece TJNAF, Newport News, Virginia
TA009	Status of the TRASCO Project	linac, rfq, simulation, proton	337
	D. Barni INFN/LASA, Segrate, Milano
PR001	Superconducting RF Cavity on the Base of Nb/Cu for the Accelerator SVAAP	SRF, superconductivity, HOM, injection	347
	I.A. Zvonarev, D. Philippov, L.M. Sevryukova IHEP Protvino, Protvino, Moscow Region
PR003	The Superconducting Cavity Database for the TESLA Test Facility	superconducting-cavity, superconductivity, linac, linear-collider	352
	P.D. Gall, A. Gössel, V. Gubarev DESY, Hamburg
PR004	Thermal Modeling of Half Wave Acceleration Structures	superconductivity, background, linac, heavy-ion	356
	N.R. Lobanov, D.C. Weisser, S. Kalyanasundaram, J.M. Donnelly Australian National University, Canberra
PR005	High Power Tests of the Prototype 352 MHz Beta 0.85 Five Cell Cavity for the TRASCO Project	niobium, superconductivity, lattice, HOM	360
	R. Parodi, R. Ballantini, A. Chincarini, G. Gemme INFN/Genova, Genoa E. Chiaveri, R. Losito, S. Calatroni CERN, Geneva D. Barni, A. Bosotti, C. Pagani, G. Varisco INFN/LASA, Segrate, Milano
PR006	Multipacting in 1400 MHz Beta=0.5 Cavities for Proton Acceleration	simulation, electron, superconductivity, proton	363
	R. Ballantini, A. Chincarini, G. Gemme, R. Parodi, A. Podesta INFN/Genova, Genoa
PR007	Thermal and Electron-beam irradiation Effects on the Surfaces of Niobium for RF Cavity Production	electron, superconductivity, superconducting-rf, ion	368
	Q. Ma, R.A. Rosenberg ANL, Argonne, Illinois
PR008	TWTRAJ, a Computer Code for MP Simulation in Superconducting Cavities	electron, simulation, superconductivity, superconducting-cavity	373
	R. Ballantini, A. Chincarini, G. Gemme, R. Parodi, A. Podesta INFN/Genova, Genoa
PR009	The Dependence on the RF Frequency of the Field Dependent Part of the Surface Resistance of Niobium Sputter Coated Copper Cavities	niobium, superconductivity, collider, electron	378
	W. Weingarten CERN, Geneva
PR010	Statistical Approach to XPS Analysis: Application to Niobium Surface Treatment	superconductivity, niobium, background, superconducting-rf	382
	A. Chincarini, G. Gemme, R. Parodi INFN/Genova, Genoa C. Antoine CEA, Gif-sur-Yvette
PR011	Superconductive Activities at COSY FZJ	controls, resonance, superconductivity, linac	387
	R. Stassen, W. Bräutigam, O. Felden, M. Glende, A. Lehrach, R. Maier, A. Schnase, G. Schug, Y. Senichev, R. Tölle, E. Zaplatin FZJ, Jülich
PR012	Low-ß SC RF Cavity Investigations	simulation, vacuum, coupling, superconductivity	392
	E. Zaplatin, W. Bräutigam, R. Stassen FZJ, Jülich
PR013	Performance of 600 MHz 5-cell Superconducting Cavities for Prototype Cryomodule at JAERI	cryomodule, superconductivity, linac, proton	397
	O. Takeda, N. Ouchi, H. Ao, N. Akaoka JAEA, Tokai-Mura, Ibaraki S. Noguchi, K. Saito, E. Kako KEK, Ibaraki M. Matsuoka Mitsubishi Heavy Industries, Yokohama K. Mukugi MELCO, Kobe H. Asano NAT, Tokai-Mura, Ibaraki-Ken
PR014	Secondary Electron yield of Nb RF Cavity Surfaces	electron, superconductivity, vacuum, gun	400
	R. Noer Carleton College, Northfield, Minnesota S. Mitsunobu, Y. Kijima, T. Higuchi, K. Saito KEK, Ibaraki
PR015	Vertical Cold Test of the Crab Cavity with a Co-axial Beam Pipe	superconductivity, vacuum, electron, insertion	403
	Y. Morita, K. Hara, K. Hosoyama, A. Kabe, Y. Kojima, H. Nakai KEK, Ibaraki M. Inoue, K. Ohkubo Mitsubishi Heavy Industries, Kobe
PR016	Besides the Standard Niobium Bath Chemical Polishing	niobium, superconductivity, superconducting-cavity, monitoring	408
	V. Palmieri, F. Stivanello, S.Y. Stark INFN/LNL, Legnaro, Padova C. Roncolato INFM Research Unit of Padua, Padua M. Valentino INFM Research Unit of Naples, Naples
PR017	Nonlinear Effects in He-Filled Superconducting RF Systems	resonance, niobium, superconductivity, scattering	413
	A.L. Karuzskii, A.E. Krapivka, A.I. Golovashkin, A.V. Perestoronin LPI, Moscow
PR018	High RRR Niobium Cost Reduction Program for SRF Linacs	niobium, superconducting-rf, electron, superconductivity	417
	T. Carneiro Reference Metals Company, Inc., Bridgeville, Pennsylvania C. Klinkenberg Niobium Products Company, GmbH, Düsseldorf M. Imagumbai CBMM Asia Co. Ltd., Tokyo H.R.S. Moura Comphania Brasileia de Metalurgia e Mineração, Araxa
PR019	Experimental Formula of the ON-set Level of Two-point Multipacting Over the RF Frequency Range 500 MHz to 1300 MHz	superconductivity, niobium, electron, simulation	419
	K. Saito KEK, Ibaraki
PR020	Basic Study for Degradation Free Final Horizontal Cavity Assembly with High Gradient Niobium SC Cavities	vacuum, niobium, superconductivity, superconducting-cavity	423
	K. Saito KEK, Ibaraki
PR021	Hydrogen Q-disease and Electropolishing	niobium, cathode, superconductivity, superconducting-cavity	427
	T. Higuchi Grad. Univ. Advanced Studies and Nomura Plating Co. Ltd., Okazaki K. Saito, Y. Yamazaki KEK, Ibaraki T. Ikeda, S. Ohgushi Nomura Plating Co. Ltd., Osaka
PR022	Centrifugal Barrel Polishing of L-band Niobium cavities	niobium, superconductivity, superconducting-cavity, linear-collider	431
	T. Higuchi Grad. Univ. Advanced Studies and Nomura Plating Co. Ltd., Okazaki K. Saito, Y. Yamazaki KEK, Ibaraki T. Ikeda, S. Ohgushi Nomura Plating Co. Ltd., Osaka
PR023	Measurements of Hydrogen Content in Bulk Niobium by Thermal Desorption Spectroscopy	niobium, superconductivity, injection, site	433
	M. Hakovirta CERN, Geneva
PR024	Precise 3D Geometric Control of 700MHz SC Elliptical Cavities: RF Measurements vs. Theoretical Simulations	simulation, dipole, controls, superconductivity	437
	G. Olry IPN, Orsay B. Leluan LAL, Orsay
PR025	Diffusion of Oxygen in Niobium during Bake-out	niobium, superconductivity	441
	S. Calatroni, C. Benvenuti, V. Ruzinov CERN, Geneva
PT001	TESLA RF Power Couplers Development at DESY	vacuum, superconductivity, pick-up, linac	443
	B. Dwersteg, D. Kostin, M. Lalayan, C. Martens, W.-D. Möller DESY, Hamburg
PT003	Re-plating the ANU Linac	superconductivity, linac, electron, vacuum	453
	N.R. Lobanov, D.C. Weisser, N.J. Welham Australian National University, Canberra
PT004	Superconducting RF Activities at Federate Problem Lab for Technology and Study of the SC Cavities of the Ministry of the Russian Federation for Atomic Energy at the Institute for High Energy Physics	RF-structure, injection, SRF, superconductivity	458
	L.M. Sevryukova, V. Efremov, V. Malenko, M. Tchernov, I.A. Zvonarev, O.M. Mamaev, S. Pesterev, D. Philippov, V. Romanenko IHEP Protvino, Protvino, Moscow Region
PT005	Dry Ice Cleaning for SRF Applications	superconductivity, niobium, controls, vacuum	463
	D. Proch, D. Reschke DESY, Hamburg B. Günther, G. Müller University of Wuppertal, Wuppertal D. Werner Frauhofer IPA, Stuttgart
PT006	Hydro Forming of NbCu Clad Cavities at DESY	superconductivity, niobium, plasma, accelerating-gradient	467
	W. Singer, X. Singer, K. Twarowski DESY, Hamburg I. Jelezov, T. Khabibuline, A. Skasyrskaia RAS/INR, Moscow P. Kneisel TJNAF, Newport News, Virginia
PT007	SRF Technology at ACCEL for Worldwide Accelerator Projects	superconducting-cavity, linac, SRF, HOM	471
	S. Bauer, B. Griep, M. Peiniger, M. Pekeler, C. Piel, P. vom Stein, H. Vogel Accel Instruments GmbH, Bergisch Gladbach
PT008	Low Temperature Mechanical Properties of Titanium and Weld Joints (Ti/Ti, Ti/Nb) for Helium Vessels	superconductivity, niobium, cryogenics, linac	473
	K. Mukugi, N. Ouchi JAEA, Tokai-Mura, Ibaraki A. Takemura Kobe Steel Sinagawa-ku, Y. Morimoto Kobe Steel Takasago-shi,
PT009	Oil-free Pump Stations for Pumping of the Superconducting Cavities of the TESLA Test Facility	controls, vacuum, linac, superconducting-cavity	477
	M. Böhnert, O. Hensler, D. Hoppe, K. Zapfe DESY, Hamburg
PT010	Engineering Solutions for the Electro-polishing of Multi-cell Superconducting Accelerator Structures	niobium, cathode, superconductivity, controls	481
	E. Schulz, R. Bandelmann, K. Escherich, D. Keese, M. Leenen, L. Lilje, A. Matheisen, H. Morales, P. Schmüser, M. Seidel, N. Steinhau-Kühl, J. Tiessen DESY, Hamburg
PT011	Design of a ß=0.175, 2-gap Spoke Resonator	coupling, pick-up, superconductivity, linac	485
	F.L. Krawczyk, K.C.D. Chan, R. Garnett, R.C. Gentzlinger, R.P. LaFave, J.P. Kelley, D.L. Schrage, T. Tajima LANL, Los Alamos P.L. Roybal Techsource, Santa Fe, New Mexico
PT012	Results of the APT RF Power Coupler Development for Superconducting Linacs	vacuum, linac, superconductivity, klystron	489
	E.N. Schmierer, W.B. Haynes, F.L. Krawczyk, D.C. Gautier, J.G. Gioia, M.A. Madrid, R.E. Lujan, K.C.D. Chan, D.L. Schrage, B.G. Smith, J. Waynert LANL, Los Alamos B. Rusnak LLNL, Livermore, California
PT013	Design of the Spoke Cavity ED&D Input Coupler	vacuum, coupling, linac, superconductivity	494
	E.N. Schmierer, K.C.D. Chan, R.C. Gentzlinger, W.B. Haynes, F.L. Krawczyk, D.I. Montoya, P.L. Roybal, D.L. Schrage, T. Tajima LANL, Los Alamos
PT014	Alternate Electrolyte Composition for Electropolishing of Niobium Surfaces	cathode, superconductivity, SRF, controls	499
	J.R. Delayen, J. Mammosser, L. Phillips, A.T. Wu TJNAF, Newport News, Virginia
PT015	Electro Polishing at DESY, A Set Up for Multi-cell Resonator Treatment	power-supply, superconductivity, controls, synchrotron	508
	K. Escherich, R. Bandelmann, D. Keese, M. Leenen, L. Lilje, A. Matheisen, H. Morales, P. Schmüser, E. Schulz, M. Seidel, N. Steinhau-Kühl, J. Tiessen DESY, Hamburg
PT016	Superconducting Prototype Cavities for the Spallation Neutron Source (SNS) Project	HOM, cryomodule, superconductivity, damping	512
	G. Ciovati, P. Kneisel, J. Brawley, R. Bundy, I.E. Campisi, K. Davis, K. Macha, D. Machie, J. Mammosser, S. Morgan, R. Sundelin, L. Turlington, H. Wang, K.M. Wilson TJNAF, Newport News, Virginia M. Doleans, S.H. Kim, D. Mangra ORNL, Oak Ridge, Tennessee D. Barni, C. Pagani, P. Pierini INFN/LASA, Segrate, Milano K. Matsumoto, R. Mitchell, D.L. Schrage LANL, Los Alamos R. Parodi INFN/Genova, Genoa J. Sekutowicz DESY, Hamburg P. Ylä-Oijala Rolf-Nevanlinna Institute, Helsinki
PT017	High-pressure Rinse and Chemical Polish of a Spoke Cavity	niobium, accelerating-gradient, controls, superconductivity	517
	M.P. Kelly, K.W. Shepard, M. Kedzie ANL, Argonne, Illinois
PT018	Low and Medium Velocity Cavity Development for the RIA Driver Linac	linac, ion, niobium, superconductivity	520
	K.W. Shepard, M. Kedzie ANL, Argonne, Illinois
PT019	R & D of Nb/Cu Clad Seamless cavities at KEK	niobium, superconductivity, electron, superconducting-rf	523
	K. Saito, T. Fujino, N. Hitomi, H. Inoue, Y. Yamazaki KEK, Ibaraki V. Palmieri INFN/LNL, Legnaro, Padova W. Singer DESY, Hamburg P. Kneisel TJNAF, Newport News, Virginia K. Ohara Toshiba Co. Ltd., Tokyo S. Tsukada Hitachi Cable Co. Ltd., Tsuchiura-shi
PT020	Stainless Flange Bonded to Niobium Tube and Simple Aluminum Sealing	niobium, vacuum, electron, superconductivity	531
	K. Saito, H. Inoue, H. Ao, N. Satoh KEK, Ibaraki
PT021	The Prototype Fundamental Power Coupler for the Spallation Neutron Source Superconducting Cavities: Design and Initial Test Results	vacuum, superconducting-cavity, neutron, controls	535
	K.M. Wilson, I.E. Campisi, E.F. Daly, G.K. Davis, M. Drury, J.E. Henry, P. Kneisel, G. Myneni, T. Powers, W.J. Schneider, M. Stirbet TJNAF, Newport News, Virginia Y. Kang ORNL, Oak Ridge, Tennessee K. Cummings, T. Hardek LANL, Los Alamos
PT022	Preliminary Design of a Stainless Steel Helium Tank and its Associated Cold Tuning System for 700 MHz SCRF Cavities for Proton	niobium, superconductivity, cryogenics, simulation	540
	H. Saugnac, S. Rousselot, C. Commeaux, H. Gassot, T. Junquera IPN, Orsay P. Bosland, H. Safa CEA, Gif-sur-Yvette
PT023	Measuring Complex Dielectricity Constant of Aluminum Oxide Window Ceramics for TTF-Power Couplers at DESY	vacuum, superconductivity, insertion, synchrotron	545
	B. Dwersteg DESY, Hamburg Z. Yu IHEP Beijing, Beijing
PT024	Inert Gas Plasma Spraying for Cavity Stiffening Using Copper Coating	plasma, niobium, SRF, superconductivity	550
	S. Bousson, M. Fouaidy, H. Gassot, T. Junquera, J.C. Lescornet, J. Lesrel IPN, Orsay J.P. Charrier, H. Safa CEA, Gif-sur-Yvette
PT025	Design and Fabrication of SCRF Cavities for the APT Continuous-Wave Proton Linac	electron, niobium, cryogenics, superconductivity	555
	R.C. Gentzlinger, K.C.D. Chan, W.B. Haynes, J.P. Kelley, F. Krawczyk, R. Mitchell, D.I. Montoya, D.L. Schrage, B.G. Smith, T. Tajima LANL, Los Alamos J. Kuzminski General Atomics, San Diego, California B. Rusnak LLNL, Livermore, California H. Safa CEA, Gif-sur-Yvette
PT027	The Secondary Electron Yield of the Material for the KEKB Superconducting Cavity Input Coupler	electron, vacuum, superconductivity, gun	560
	Y. Kijima Grad. Univ. Advanced Studies and Nomura Plating Co. Ltd., Okazaki S. Mitsunobu, T. Furuya KEK, Ibaraki R. Noer Carleton College, Northfield, Minnesota
PT028	Conditioning of Input Coupler for KEKB Superconducting Cavities	electron, vacuum, simulation, superconductivity	565
	Y. Kijima Grad. Univ. Advanced Studies and Nomura Plating Co. Ltd., Okazaki G. Katano, T. Furuya, S. Mitsunobu KEK, Ibaraki
PT029	600 MHz Prototype Cryomodule for High Intensity Proton Linac at JAERI	cryomodule, proton, linac, superconductivity	570
	N. Ouchi, H. Asano, N. Akaoka, E. Chishiro, K. Hasegawa, H. Suzuki, O. Takeda, H. Yoshikawa JAEA, Tokai-Mura, Ibaraki E. Kako, S. Noguchi, K. Saito KEK, Ibaraki Y. Kijima, K. Mukugi, T. Murai MELCO, Kobe M. Matsuoka Mitsubishi Heavy Industries, Yokohama
PH001	Study of the Thermomagnetic Instability for Superconducting RF Structure of SVAAP Accelerator on the Base of Nb/Cu	superconductivity, RF-structure, SRF, superconducting-cavity	574
	O.M. Mamaev, L.M. Sevryukova IHEP Protvino, Protvino, Moscow Region N.A. Ivanov Russian Ministry for Atomic Energy, Moscow
PH002	Test Results of ß=0.64, 700 MHz, 5-cell Elliptical Cavities	superconductivity, superconducting-cavity, niobium, linac	578
	T. Tajima, K.C.D. Chan, R.L. Edwards, R.C. Gentzlinger, W.B. Haynes, J.P. Kelley, F.L. Krawczyk, J.E. Ledford, M.A. Madrid, D.I. Montoya, D.L. Schrage, A.H. Shapiro LANL, Los Alamos J. Mammosser TJNAF, Newport News, Virginia
PH003	Critical Field Limitation of the Niobium Superconducting RF Cavity	niobium, superconductivity, pick-up, cryogenics	583
	K. Saito KEK, Ibaraki
PH004	Behavior of Air Exposure of Medium ß(=0.45) Niobium SC Cavity	niobium, superconductivity, vacuum, proton	588
	K. Saito KEK, Ibaraki
PE002	Latest Developments from the S-DALINAC	electron, controls, photon, linac	594
	W. Beinhauer, M. Brunken, H. Genz, M. Gopych, H.-D. Graef, T. Hartmann, M. Hertling, S. Khodyachykh, S. Kostial, U. Laier, O. Patalakha, M. Platz, A. Richter, B. Schweizer, A. Stascheck, O. Titze, S. Watzlawik TU Darmstadt, Darmstadt
PE003	Operation Status of the KEKB Superconducting Damped Cavity	HOM, luminosity, electron, superconductivity	599
	T. Furuya, K. Akai, K. Hara, K. Hosoyama, A. Kabe, G. Katano, Y. Kijima, Y. Kojima, S. Mitsunobu, Y. Morita, H. Nakai, T. Tajima KEK, Ibaraki
PS001	Latest Results from the Production of 500 MHz SRF Modules for Light Sources and CESR Upgrade	SRF, HOM, superconductivity, cryogenics	602
	S. Bauer, B. Griep, P. vom Stein, M. Pekeler, H. Vogel Accel Instruments GmbH, Bergisch Gladbach S. Belomestnykh, J. Knobloch, H. Padamsee, J. Sears Cornell University, Ithaca, New York
PS003	System Design of a Superconducting Linac for the High-Intensity Proton Accelerator Project (KEK/JAERI Joint Project)	linac, proton, controls, lattice	607
	K. Hasegawa, N. Ouchi JAEA, Tokai-Mura, Ibaraki K. Mukugi Mitsubishi Electric Co. Ltd., Hyogo-ken
PZ001	RFSC Cavities for the Detection of Gravitational Waves: Recent Updates and Future Trends	superconductivity, coupling, niobium, resonance	611
	Ph. Bernard CERN, Geneva A. Chincarini, G. Gemme, R. Parodi INFN/Genova, Genoa E. Picasso Scuola Normale Superiore, Pisa
PZ002	Proposal of Peking University Superconducting Accelerator Facility (PKU-SCAF)	electron, laser, gun, cathode	616
	B.C. Zhang, K. Zhao, J.K. Hao, S.W. Quan, L.F. Wang, D.L. Xie, X.Y. Lu, F. Zhu, R. Xiang, S.L. Huang, A.J. Gu, J.J. Zhuang, J.E. Chen IHIP Beijing, Peking University
PZ003	Basic Studies for the Electro Polishing Facility at DESY	niobium, superconductivity, cathode, acceleration	620
	N. Steinhau-Kühl, R. Bandelmann, K. Escherich, D. Keese, M. Leenen, L. Lilje, A. Matheisen, H. Morales, P. Schmüser, E. Schulz, M. Seidel, J. Tiessen DESY, Hamburg
PZ004	RF Power Coupler for Prototype Cryomodule at JAERI	cryomodule, vacuum, coupling, superconductivity	624
	M. Matsuoka, N. Akaoka, H. Asano, E. Chishiro, N. Ouchi, H. Suzuki, O. Takeda, H. Yoshikawa JAEA, Tokai-Mura, Ibaraki E. Kako, S. Noguchi KEK, Ibaraki H. Hattori, K. Ohkubo, K. Sennyu Mitsubishi Heavy Industries, Yokohama
PZ006	Studies of Multipacting in Axisymmetric Cavities for Medium-velocity Beams	simulation, electron, superconductivity, SRF	627
	W. Hartung MSU, East Lansing, Michigan F. Krawczyk LANL, Los Alamos H. Padamsee Cornell University, Ithaca, New York
PZ007	Cryogenic Installation Status of the “CRYHOLAB” Test Facility	cryogenics, controls, superconductivity, vacuum	632
	H. Saugnac, S. Bousson, P. Blache, C. Commeaux, N. Hammoudi, T. Junquera IPN, Orsay D. Braud, H. Safa, P. Sahuquet, D. Loiseau, D. Arranger, J. Belorgey CEA, Gif-sur-Yvette
PZ008	The JAERI Superconducting RF Linac-based FELs and their Cryogenics	FEL, laser, linac, electron	635
	E.J. Minehara JAEA, Tokai-Mura, Ibaraki