niobium

Paper	Title	Other Keywords	Page
MOO02	Theoretical Critical Field in RF Application	cavity, SRF, superconductivity, KEK	1
	K. Saito KEK, Ibaraki
	Slides
MOO03	Thin Film SRF Applications Beyond Accelerators	cavity, cryogenics, LIC, controls	17
	N. Klein FZJ, Jülich
	Slides
MOP09	SRF Activities at INFN-Genoa	cavity, CERN, electron, SRF	48
	R. Parodi, R. Ballantini, A. Chincarini, S. Cuneo, G. Gemme, A. Podesta INFN Genova, Genova
MOP10	Superconducting RF Activities at FZ-Juelich	cavity, linac, COSY, proton	52
	R. Stassen, W. Bräutigam, R. Eichhorn, F.M. Esser, B. Laatsch, R. Maier, G. Schug, R. Tölle, E. Zaplatin FZJ, Jülich
MOP11	Status of the LANL Activities in the Field of RF Superconductivity	cavity, LANL, superconductivity, RF-structure	57
	T. Tajima, R.L. Edwards, R.C. Gentzlinger, F.L. Krawczyk, J.E. Ledford, J. Liu, D.I. Montoya, R.J. Roybal, D.L. Schrage, A.H. Shapiro LANL, Los Alamos, New Mexico
MOP15	Near-Surface Composition of Electropolished Niobium by Variable Photon Energy XPS	photon, background, cavity, SRF	63
	A.M. Valente JLAB, Newport News H. Tian, M.J. Kelley The College of William & Mary, Williamsburg C. McGuinness, P.A. Glans, K.E. Smith Boston University, Boston
MOP16	Low Temperature Heat Treatment Effect on High-Field EP Cavities	cavity, DESY, superconducting-cavity, superconductivity	66
	J. Hao, D. Reschke, A. Brinkmann, L. Lilje DESY, Hamburg
MOP18	Effect of Mild Baking on High Field Q-Drop of BCP Cavity	cavity, superconductivity, site, DESY	70
	G. Eremeev, H. Padamsee, M. Liepe, R. Roy Cornell University, Ithaca, New York
MOP34	Research and Development Program on Superconducting Crab Cavities for KEKB	cavity, KEK, KEKB, luminosity	120
	H. Nakai, K. Hara, T. Honma, K. Hosoyama, A. Kabe, Y. Kojima, Y. Morita KEK, Ibaraki K. Nakanishi, Md. M. Rahman Graduate University for Advanced Studies, Ibaraki K. Okubo MHI Shipyard and Machinery Works, Kobe
MOP46	CRYHOLAB, A Horizontal Cavity Test Facility : New Results and Development	cavity, cryogenics, MBA, linac	167
	H. Saugnac, J.-L. Biarrotte, S. Blivet, S. Bousson, T. Junquera, P. Szott IN2P3-CNRS, Orsay B. Visentin, D. Braud, J.P. Charrier, J.P. Poupeau, D. Roudier, P. Sahuquet CEA-Saclay, Gif-sur-Yvette
MOP49	Susceptibility Measurements on Surface Treated Niobium Samples	cavity, DESY, TESLA, superconductivity	176
	B. Steffen, E.-A. Knabbe, L. Lilje, P. Schmüser DESY, Hamburg S. Casalbuoni, J. Kötzler, L. von Sawilski IAP, Hamburg
MOT01	Basic Principles of RF Superconductivity and Superconducting Cavities	cavity, electron, superconductivity, TESLA	180
	P. Schmüser IAP, Hamburg
TUO01	Q-Slope at High Gradients: Review of Experiments and Theories	cavity, superconductivity, superconducting-cavity, DESY	199
	B. Visentin CEA-Saclay, Gif-sur-Yvette
	Slides
TUO02	Surface Characterization of Bulk Nb: What Has Been Done, What Has Been Learnt?	cavity, electron, superconductivity, KEK	206
	P. Kneisel JLAB, Newport News
	Slides
TUO03	High Gradients in Superconducting Multi-Cell Cavities	cavity, TESLA, KEK, SNS	220
	L. Lilje DESY, Hamburg
	Slides
TUO10	SCRF Detectors for Gravitational Waves	cavity, coupling, resonance, superconductivity	258
	G. Gemme, R. Ballantini, A. Chincarini, S. Cuneo, R. Parodi, A. Podesta, R. Vaccarone INFN Genova, Genova O. Aberle, Ph. Bernard, S. Calatroni, E. Chiaveri, R. Losito, H. Neupert CERN, Geneva R.P. Croce, V. Galdi, V. Pierro, I.M. Pinto INFN Napoli, Napoli E. Picasso Scuola Normale Superiore, Pisa
	Slides
TUP08	Mechanical Design of a 161 MHz, β=0.16 Superconducting Quarter Wave Resonator with Steering Correction for RIA	RIA, cavity, simulation, linac	297
	A. Facco, V. Zviagintsev INFN/LNL, Legnaro, Padova C. Compton, T.L. Grimm, W. Hartung, F. Marti, R.C. York NSCL, East Lansing, Michigan
TUP10	Fabrication of Superconducting Cavities for the RF Separated Kaon Beam	cavity, electron, kaon, superconducting-cavity	302
	M. Foley, L. Bellantoni, H. Edwards Fermilab, Batavia
TUP11	Niobium to Stainless Steel Braze Transition Development	cavity, CERN, vacuum, RIA	305
	J.D. Fuerst, W.F. Toter, K.W. Shepard ANL, Argonne
TUP13	Continuous Current Oscillation Electropolishing and Applications to Half-Cells	cavity, cathode, SRF, LANL	311
	R.L. Geng, A. Crawford, G. Eremeev, H. Padamsee Cornell University, Ithaca, New York
TUP19	Electropolishing of Niobium Mono-cell Cavities at Henkel Electropolishing Technology Ltd. (Germany)	cavity, CERN, DESY, superconductivity	327
	L. Lilje, D. Reschke, A. Matheisen, K. Twarowski, J. Hao DESY, Hamburg B. Henkel HENKEL Electropolishing Technology Ltd, Neustadt-Glewe
TUP22	HFSS Computation of Frequency Sensitivity of ISAC-II Medium Beta Superconducting Cavities	cavity, simulation, ISAC, TRIUMF	339
	A.K. Mitra, R.E. Laxdal, R. Poirier, K. Fong TRIUMF, Vancouver
TUP25	Application of Flux Gate Magnetometry to Electropolishing	cathode, cavity, polarization, monitoring	351
	C. Bonavolonta Naples University Federico II, Napoli F. Laviano Turin Politecnic, Turin V. Palmieri INFN/LNL, Legnaro, Padova M. Valentino INFM, Napoli, Napoli
TUP26	Advancements on Spinning of Seamless Multicell Reentrant Cavities	cavity, vacuum, controls, collider	357
	V. Palmieri INFN/LNL, Legnaro, Padova
TUP28	Superconducting Cavity Production and Preparation at ACCEL Instruments GmbH	cavity, SNS, TESLA, acceleration	368
	M. Pekeler, S. Bauer, M. Tradt, J. Schwellenbach, P. vom Stein, H. Vogel ACCEL, Bergisch Gladbach
TUP34	Approach Towards Development of 350 MHz Bulk Niobium SCRF Cavities for 10MeV Prototyping Phase of the Proposed Proton LINAC	cavity, vacuum, linac, proton	385
	A. Puntambekar, M.G. Karmarkar CAT, Indore
TUP38	UHV Arc for Superconducting Niobium Film Deposition	cathode, cavity, background, radiation	402
	R. Russo, A. Cianchi, R. Polini, S. Tazzari, L. Catani INFN-Roma II, Roma F. Tazzioli INFN/LNF, Frascati (Roma) J. Langner The Andrzej Soltan Institute for Nuclear Studies, Swierk N.N. Koval Institute of High Current Electronics, Tomsk
TUP39	Simple Aluminum Sealing Against Superfluid Helium	cavity, KEK, vacuum, simulation	407
	K. Saito, H. Inoue, Y. Kobayashi, H. Tatsumoto KEK, Ibaraki
TUP41	Design of Dies with Right Cavity Geometry for a Proton SC Linac	simulation, cavity, linac, proton	418
	K. Saito, S. Noguchi, H. Inoue KEK, Ibaraki T. Ohota MHI Takasago R&D Centre, Hyogo T. Yanagisawa, K. Nakanishi MHI Shipyard and Machinery Works, Kobe H. Umezawa Tokyo Denkai Co. Ltd., Tokyo
TUP43	Development of the 3.9 GHz 3rd Harmonic Cavity at FNAL	cavity, HOM, DESY, electron	429
	N. Solyak, H. Edwards, I. Gonin, M. Foley, T. Khabiboulline, D. Mitchell Fermilab, Batavia
TUP44	Mechanical Design and Engineering of the 3.9 GHz 3rd Harmonic SRF System at Fermilab	cavity, HOM, SRF, DESY	432
	D. Mitchell, M. Foley, T. Khabiboulline, N. Solyak Fermilab, Batavia
TUP46	Electro Polishing at DESY	cavity, DESY, controls, KEK	442
	N. Steinhau-Kühl, T. Ebeling, K. Escherich, L. Lilje, A. Matheisen, H. Morales Zimmermann, B. Petersen DESY, Hamburg
TUP47	BCP Processing Facility	cavity, SRF, controls, superconducting-RF	447
	Y. Tereshkin, C. Boffo, G. Davis, H. Edwards, A. Rowe Fermilab, Batavia
TUP53	Cold Tests of the RIA Two-Cell Spoke Cavity	cavity, RIA, linac, electron	470
	M.P. Kelly, J.D. Fuerst, M. Kedzie, K.W. Shepard ANL, Argonne
TUP56	Development of Centrifugal Barrel Polishing for Treatment of Superconducting Cavities	cavity, accelerating-gradient, DESY, TESLA	482
	G. Issarovitch, D. Proch, D. Reschke, W. Singer, X. Singer DESY, Hamburg
WEO08	Development of Superconducting Intermediate Velocity Cavities for the U.S. RIA Project	cavity, RIA, linac, ion	539
	K.W. Shepard ANL, Argonne
	Slides
WEO09	Progress Of Nb/Cu Technology with 1.5 GHz Cavities	cavity, CERN, cathode, impedance	544
	S. Calatroni, E. Barbero-Soto, C. Benvenuti, L. Ferreira, H. Neupert CERN, Geneva
	Slides
WEO12	Voltage Breakdown and the Processing Mechanism	ion, cathode, electron, cavity	551
	G.R. Werner, H. Padamsee, D.P. Lundberg, A.S. Romanenko, J.E. Shipman, L.T. Ying Cornell University, Ithaca, New York
	Slides
WEO13	Superconductivity Above Hc2 as a Probe for Niobium RF Cavity Surfaces	superconductivity, cavity, electron, ITY	555
	S. Casalbuoni, J. Kötzler, L. von Sawilski University of Hamburg, Hamburg
	Slides
WEO14	Effect of Low Temperature Baking on Niobium Cavities	cavity, SRF, electron, superconducting-cavity	562
	G. Ciovati, P. Kneisel, G. Myneni JLAB, Newport News W.A. Lanford SUNY Albany, Albany, New York
	Slides
WEO15	Development of Hydrogen-free EP and Hydrogen Absorption Phenomena	cavity, KEK, accelerating-gradient, superconductivity	572
	T. Higuchi Nomura Plating Co. Ltd., Osaka K. Saito KEK, Ibaraki
	Slides
WET02	Fundamentals of Electrochemistry - The Electrolytic Polishing of Metals: Application to Copper and Niobium	ion, controls, cavity, polarization	579
	V. Palmieri INFN/LNL, Legnaro, Padova
	Slides
THP01	RRR Measurements on Niobium for Superconducting RF Cavities at Fermilab	cavity, DESY, electron, superconducting-RF	588
	P. Bauer, T. Berenc, C. Boffo, M. Foley, M. Kuchnir, Y. Tereshkin, T. Wokas Fermilab, Batavia
THP04	Topologic Analysis of Samples and Cavities: A New Tool for Morphologic Inspection of Quench Site	cavity, LEFT, superconductivity, site	591
	S. Berry, C.Z. Antoine, A. Aspart, J.P. Charrier, M. Desmons, L. Margueritte CEA-Saclay, Gif-sur-Yvette
THP05	Hydrogen Surface Analysis of Niobium in Function of Various Electrochemical Conditions	superconductivity, cathode, cavity, vacuum	596
	C.Z. Antoine, S. Berry, H. Shou CEA-Saclay, Gif-sur-Yvette
THP06	Wet Oxidation of an Epitaxial Niobium Film	ion, lattice, cavity, SRF	599
	W.R. Frisken York University, Toronto L.N. Hand Cornell University, Ithaca, New York
THP07	Characterization of Niobium Films and a Bulk Niobium Sample with RRR, SIMS and a Squid Magnetometer	CERN, DESY, cavity, ion	604
	L.N. Hand, J.P. Craig, J.A. Thompson Cornell University, Ithaca, New York W.R. Frisken York University, Toronto
THP08	Development of a Niobium Bellows for Beamline Connections	cavity, electron, alignment, cryogenics	607
	L. Turlington, J. Brawley, P. Kneisel, S. Manning, B. Manus, S. Morgan, G. Slack JLAB, Newport News
THP09	In Situ XPS Investigation of the Baking Effect on the Surface Oxide Structure Formed on Niobium Sheets Used for Superconducting RF Cavity Production	cavity, electron, ion, MBA	610
	K. Kowalski, A. Bernasik AGH University of Science and Technology, Krakow W. Singer, X. Singer DESY, Hamburg J. Camra Jagellonian Univerity, Krakow
THP11	Morphology of Niobium Films Sputtered at Different Target-Substrate Angle	target, cavity, impedance, simulation	614
	D. Tonini Univ. degli Studi di Padova, Padova C. Greggio, V. Palmieri INFN/LNL, Legnaro, Padova G. Keppel, G. Torzo INFM, Padova, Padova F. Laviano Turin Politecnic, Turin M. Musiani CNR-IENI, Padua
THP13	Surface Science Laboratory for Studying the Surfaces of Superconducting Radio Frequency Cavities	cavity, vacuum, SRF, electron	622
	A.T. Wu JLAB, Newport News
THP15	Surface Smoothness for High Gradient Niobium SC RF Cavities	cavity, superconductivity, KEK, superconducting-cavity	637
	K. Saito KEK, Ibaraki
THP16	RRR Effect on the Flux Trapping of Niobium SC CAVITIES	cavity, KEK, CEBAF, superconducting-cavity	641
	K. Saito KEK, Ibaraki
THP17	Q-Slope Analysis of Niobium SC RF Cavities	cavity, superconductivity, KEK, electron	643
	K. Saito KEK, Ibaraki
THP19	Q Disease: Insights from 350 MHz Spoke Cavities Tests and ERD Analyses of Hydrogen in Niobium	cavity, LANL, vacuum, superconductivity	655
	T. Tajima, R.L. Edwards, F.L. Krawczyk, J. Liu, D.L. Schrage, A.H. Shapiro, J.R. Tesmer, C.J. Wetteland LANL, Los Alamos, New Mexico R.L. Geng Cornell University, Ithaca, New York
THWG1	Q Drop at High Gradient, Prospect of Higher Q for CW, Critical RF SC Field	cavity, superconductivity, SRF, superconducting-cavity	736
	K. Saito KEK, Ibaraki