Links to ASC 2000 Preprints
(available until Match 15, 2001)
[Electronics] [Large Scale] [Materials]
1EB06 Normal- and superconducting coplanar wave guides with submicron
line widths
S.Wuensch, G.Benz, M.Neuhaus, T.A.Scherer, W.Jutzi, University of Karlsruhe
http://www-iegi.etec.uni-karlsruhe.de/publications/1EB06.PDF
1EB08 Local microwave surface resistance variations of the YBaCuO thin films patterned by
selective laser irradiation and plasma fluorination
Y.J.Feng, L.Liu, L.Y.Wu, Q.G.Liu, Z.L.Fu, L.X.You, L.Kang, S.Z.Yang, P.H.Wu,
Department of Electronic Science and Engineering, University of Nanjing, Nanjing,
P.R.China
http://w3.ascinc.org/manuscripts/papers/1EB08.pdf
1EB11 Nonlinear Analysis of Disk Resonators. Application to Material Characterization and
Filter Design
Jordi Mateu, Carlos Collado, Juan O Callaghan, Universitat Politecnica de
Catalunya (UPC)
http://www-tsc.upc.es/eef/research_lines/supercon2/Supercon/supercon/p5.htm
1EF01 SQUID systems for Macroscopic Quantum Coherence and Quantum Computing
P.Carelli, F.Chiarello, INFM; M.G.Castellano, R.Leoni, G.Torrioli, IESS-CNR;
C.Cosmelli, INFN
http://w3.ascinc.org/manuscripts/papers/1EF01.pdf
1EI02 High-Tc Superconductor Sampler System for Digital Signal
Waveform Measurement
M.Hidaka, T.Satoh, S.Tahara, NEC; M.Kimishima, M.Takayama, Advantest
http://www.labs.nec.co.jp/super/1EI02Hidaka.pdf
1EI05 A General Approach for Determining the Switching Probability in Rapid Single Flux
Quantum Logic Circuits
Th. Ortlepp, H.Toepfer, F.H.Uhlmann, Univ. of Technology Ilmenau
http://www.rz.tu-ilmenau.de/~ortlepp/ASC-1EI05.ps
1EI08 RSFQ Real-Time Pattern Analyzer
V.Kaplunenko, V.Borzenets, Conductus Inc
http://home.pacbell.net/kapl/seva_1ei08.pdf
1EK01 10 K NbN DSP Module for IR Sensor Applications
A.G. Sun, B. Dalrymple, D.J. Durand, M.W. Johnson, J.A. Luine, TRW; A.
Spooner, Sierra Monolithics
http://www.trw.com/cgi-bin/redirectpdf.cgi?/innovations/library/pdf_supercond/NbN_DSP_Module.pdf
1EK03 SFQ standard cell-based circuit design of an internal
link speeded-up Batcher-Banyan packet switch
Y.Kameda, S.Yorozu, S.Tahara, NEC
http://www.labs.nec.co.jp/super/1EK03Kameda.pdf
2EA07 Precise patterning technique for Nb junctions using
optical proximity correction method
Masahiro Aoyagi, Hiroshi Nakagawa, Hiroshi Sato, Hiroshi Akoh,
Electrotechnical Laboratory, Tsukuba, Ibaraki, Japan
http://www.etl.go.jp/~4666/ASC-Aoyagi8-11.pdf
2EB01 YBa2Cu3O7 on Y-Stabilized ZrO2 buffered (100) Si -- T Resonator Microwave
Characteristics
Yu. A.Vlasov, J.M.Vargas, P.Brown, G.L.Jr. Larkins, Florida International
University
http://www.fiu.edu/~vlassovy/2EB01.pdf
2EB03 Superconducting Half-Wave Microwave Resonator on YSZ Buffered Si(100)
Jorge Vargas, Philip Brown, Tasharruf Khan, Yazan Hijazi, Yuri Vlasov, Grover
Larkins, Florida International University
http://www.fiu.edu/~vlassovy/2EB03.pdf
2EB06 A General Electromagnetic Simulation Tool to Predict the Microwave Nonlinear
Response of Planar, Arbitrarily-Shaped HTS Structures
Josep Parron, Carlos Collado, Jordi Mateu, Juan Manuel Rius, Nuria Duffo, Juan
O`Callaghan, Universitat Politecnica de Catalunya (UPC)
http://www-tsc.upc.es/eef/research_lines/supercon2/Supercon/supercon/p5.htm
2EB07 A Refined Circuit Model of High Temperature Superconducting Spiral Coils for MRI
Erzhen Gao, Q.Y.Ma, Columbia University
http://www.eagland.com/~ezg/gao-model.pdf
2EB11 Further Development of a Future ESM Channeliser with High Temperature
Superconducting Filters
R.F.Jeffries, R.B.Greed, D.C.Voyce, BAE SYSTEMS, Marconi Research Centre;
G.Nudd, MAv, Stanmore, Middlesex;
R.G.Humphreys, S.W.Goodyear, DERA, Malvern, Worcester
http://w3.ascinc.org/manuscripts/papers/2EB11.pdf
2EC05 Superconducting current - phase dependence in Josephson YBCO bicrystal junctions on
sapphire
I.V.Borisenko, G.A.Ovsyannikov, K.Y.Constantinian, A.D.Mashtakov, Institute of
Radio Engineering
and Electronics, Russian Academy of Sciences, Moscow
http://www.chat.ru/~iwert/files/ascman.pdf
2EC11 Inelastic Resonant Tunneling Effects in Conductivity and Microwave Response of YBaCuO
Josephson Junctions formed on Bicrystal Boundary
Aleksandr Verevkin, Yale University; Andrej Lipatov, Denis Meledin, Vadim
Ilyin, MSPU
http://w3.ascinc.org/manuscripts/papers/2EC11.pdf
2EC14 YBa2Cu3O7 Bicrystal Grain Boundary Junction
Microstructure
Jerome A. Luine, TRW; Alexander M. Klushin, Forschungszentrum Jülich
GmbH, Institut für Schicht-und Ionentechnik;
Vladimir Z. Kresin, Lawrence Berkeley Laboratory
http://www.trw.com/cgi-bin/redirectpdf.cgi?/innovations/library/pdf_supercond/Luine_et_al_2EC14ASC2000.pdf
2ED06 1/2 wave YBa2Cu3O7 on LaAlO3 Resonators with Tunable BaTiO3 and SrTiO3 coupling
capacitors
G.L.Larkins, Jr., Yu.A.Vlasov, P.Brown, J.M.Vargas, Florida International
University
http://www.fiu.edu/~vlassovy/2ED06.pdf
2ED11 Enhanced Microwave Power from Triangular Arrays of Josephson Junctions
Pasqualina Caputo, Alexey V.Ustinov, Physikalisches Institut III, Universitaet
Erlangen-Nuernberg;
Stan Yukon, Air Force Research Laboratory, SNHE Hanscom AFB, MA; Nathaniel Lin, ARCON
Corporation, Waltham, MA
http://www.physik.uni-erlangen.de/PI3/Ustinov/publications/2000/asc_caputo00.pdf
2EE01 Superconducting Digital Electronics
S. Tahara, S.Yorozu, Y.Kameda, Y.Hashimoto, H.Numata, T.Satoh,
W.Hattori, M.Hidaka, NEC Corporation, Fundamental Research Laboratories
http://www.labs.nec.co.jp/super/2EE01Tahara.pdf
2EG11 An HTS 21-pole microstrip filter for IMT-2000 base
stations with steep attenuation
Wataru Hattori, Tsutomu Yoshitake, Yoshihiro Kitagawa, Hisako Iwata,
Kuniharu Takahashi, NEC Corporation
http://www.labs.nec.co.jp/super/2EG11Hattori.pdf
2EG13 High Performance Cryogenic Packaging for Microwave Applications of High Temperature
Superconductors
R.B.Greed, R.F.Jeffries, D.C.Voyce, A.J.Barkway, Marconi Research Centre
http://w3.ascinc.org/manuscripts/papers/2EG13.pdf
2EK03 Wide Bandwidth Oscillator/Counter A/D Converters
Mark W. Johnson, Bruce J. Dalrymple, Dale J. Durand, Q. P. Herr, Arnold
H. Silver, TRW, Inc.
http://www.trw.com/cgi-bin/redirectpdf.cgi?/innovations/library/pdf_supercond/TRW_Nb_ADC_ASC_00.pdf
2EK06 60 Gbps Throughput Demonstration of An Asynchronous
SFQ-pulse Arbitration Circuit
S.Yorozu, Y.Kameda, S.Tahara, NEC Corporation
http://www.labs.nec.co.jp/super/2EK06Yorozu.pdf
3EA06 Reduction of Non-periodical Extramural Magnetic Noises in MEG Measurement by
Continuously Adjusted Least Squares Method
Y.Adachi, M.Shimogawara, M.Higuchi, Kanazawa Institute of Technology; Y.Haruta,
Yokogawa Electric Corp.; M.Ochiai, Keio University
http://wwwr.kanazawa-it.ac.jp/ael/document/asc2000/manuscript_3EA06.pdf
3EA11 High Temperature Superconducting RF Coils for MRI Application
Q.Y.Ma, E.Gao, The Jockey Club MRI Engineering Center, University of Hong Kong,
Columbia University;
K.C.Chan, J.Fang, M.S.Chow, K.K.Wong, E.S.Yang, The Jockey Club MRI Engineering Center,
University of Hong Kong;
H.Xu, E.X.Wu, Columbia University;
D.F.Kacher, G.S.Young, F.A.Jolesz, Brigham and Women’s Hospital, Harvard Medical
School
http://www.eagland.com/~ezg/ma-mri.pdf
3EB09 Imaging sub-millimeter waves in planar cryoelectronic circuits by low temperature
scanning laser microscopy
D.Abraimov, A.V.Ustinov, Physics Institute III, University of
Erlangen-Nuremberg, Germany;
S.V.Shitov, Institute of Radio Engineering and Electronics, Moscow, Russia
http://www.physik.uni-erlangen.de/PI3/ustinov/publications/2000/asc_abraimov00b.pdf
3EE01 High-Temperature Superconducting Edge-Type Josephson
Junctions with Modified Interface Barriers
T.Satoh, M.Hidaka, S.Tahara, NEC; J.-G.Wen, N.Koshizuka, S.Tanaka,
ISTEC
http://www.labs.nec.co.jp/super/3EE01Satoh.pdf
3EE04 Nanometer scale masked ion damage barriers in YBCO
W.E.Booij, F.Kahlmann, R.Speaks, E.J.Tarte, D.F.Moore, M.G.Blamire, IRC in
Superconductivity, University of Cambridge, United Kingdom;
N.H.Peng, R.Webb, C.Jeynes, SCRIBA, University of Surrey, Guildford GU2 5XH, England
http://www-dmg.msm.cam.ac.uk/dmg/papers/3EE04.pdf
4EA01 Integrated Superconducting Receiver: fabrication and yield
4EA10 A data acquisition system for test and control of
superconducting integrated receivers
A.B. Ermakov, S.V. Shitov, V.P. Koshelets, Institute of Radio Engineering
and Electronics, Moscow,Russia;
A.M. Baryshev, W. Luinge, SRON-Groningen, Groningen, the Netherlands
http://www.cplire.ru/html/lab235/pubs/2000-08.pdf
4EC03 The High-TC RF-SQUID Magnetometer With a Copper Flux Transformer
Nicolai I.Firsov, Ilya L.Novikov, Radmir F.Khusnutdinov, Sergei B.Kvasov,
Novosibirsk State Technical University
http://w3.ascinc.org/manuscripts/papers/4EC03.pdf
4EG03 Quasi-particle injection device for the interface between superconductor and
semiconductor
Hidehiro Shiga, Yoichi Okabe, RCAST, University of Tokyo
http://www.okabe.rcast.u-tokyo.ac.jp/~shiga/Work/asc2000.pdf
4EJa04 High-resolution Current Measurement System Using a
Hhigh-Tc Superconductor Sampler
M. Hidaka, N. Ando, T. Satoh, S. Tahara, NEC
http://www.labs.nec.co.jp/super/4EJa04Hidaka.pdf
4EJb01 An hysteretic dc SQUID for Non Invasive Measurements of the flux states of an rf
SQUID
C.Cosmelli, Dip. di Fisica, Univ. di Roma 1, INFN sez. di Roma, Italy;
M.G.Castellano, F.Chiarello, G. Torrioli, IESS-CNR, Roma, Italy;
P.Carelli, Dip. En. Elettrica, Univ. de L; A.Intelisano, N.Milanese, Dip. Di Fisica,
Univ. di Roma 1, Italy
http://w3.ascinc.org/manuscripts/papers/4EJb01.pdf
4EJb07 Small inductance effects on the Superconducting Persistent Current Qubit
D.S.Crankshaw, L.Tian, T.P.Orlando, MIT; C.H.van der Wal, J.E.Mooij, Delft
University of Technology
http://www.mit.edu/~superconductivity/inductance.pdf
4EL04 A High Density 4 kA/cm^2 Nb Integrated Circuit
Process
George L. Kerber, Lynn A. Abelson, Michael L. Leung, Quentin P. Herr,
Mark W. Johnson, TRW
http://www.trw.com/cgi-bin/redirectpdf.cgi?/innovations/library/pdf_supercond/4kA_Nb_final_pgnos.pdf
5EA01 Improved Methods for Yield-Optimization of Digital
LogicQuentin Herr, Mark Johnson, TRW Space and Electronics Group
http://www.trw.com/cgi-bin/redirectpdf.cgi?/innovations/library/pdf_supercond/malt2_preprint.pdf
5EA09 Analysis of Electromagnetic Coupling Effects in Integrated Josephson Junction Logic
Devices by the FDTD Technique
F.H.Uhlmann, B.Dimov, H.Toepfer, Univ. of Technology Ilmenau
http://www.rz.tu-ilmenau.de/~ortlepp/ASC-5EA09.ps
5EC03 Development of sub-micron SNS ramp-type Josephson junctions
D.Hagedorn, R.Dolata, R.Poepel, F.-Im. Buchholz, J.Niemeyer,
Physikalisch-Technische Bundesanstalt, Braunschweig, Germany
http://www.ptb.de/deutsch/org/2/2402/pub2042.htm
5EE02 Multiplexed SQUID Array for Non-Destructive Evaluation of Aircraft Structures
H.-J.Krause, S.Gärtner, N.Wolters, R.Hohmann, W.Wolf, J.Schubert, W.Zander,
Y.Zhang, ISI, Forschungszentrum Jülich;
M.v. Kreutzbruck, M.Mück, IAP, University of Giessen
http://w3.ascinc.org/manuscripts/papers/5EE02.pdf
5EG03 Microwave emission from two-stacked arrays of long Josephson junctions.
Giovanni Carapella, Giovanni Costabile, Rossella Latempa, INFM Research Unit
and Department of Physics, University of Salerno, Baronissi, Italy;
Nicolai Herholdt-Rasmussen, Jesper Mygind, Department of Physics, B309, The Technical
University of Denmark, DK-2800 Lyngby, Denmark
http://w3.ascinc.org/manuscripts/papers/5EG03.pdf
5EG06 Superfine Resonant Structure on IVC of Long Josephson Junctions and Its Influence
on Flux Flow Oscillator Linewidth
V.P. Koshelets, A.B. Ermakov, S.V. Shitov, P.N. Dmitriev, L.V. Filippenko, Institute of
Radio Engineering and Electronics, Moscow, Russia.;
A.M. Baryshev, W. Luinge, SRON-Groningen, the Netherlands;
J.Mygind, Department of Physics, Technical University of Denmark, Lyngby, Denmark;
V.L. Vaks, Institute for Physics of Microstructure, Nizhny Novgorod, Russia;
D.G. Pavel’ev, Nizhny Novgorod State University, Nizhny Novgorod, Russia
http://www.cplire.ru/html/lab235/pubs/2000-10.pdf
5EG09 Some Properties of Dynamical States in 2D Josephson Underdamped Josephson Junctions
Arrays
Cinzia De Leo, Giacomo Rotoli, University of L Aquila, Italy
http://www.ing.univaq.it/energeti/research/Fisica/papASC2000.pdf
5EG10 Tunable Power Output of a Parallel Array of Overdamped Josephson Junctions
Donald Crankshaw, Enrique Trias, Terry Orlando, MIT
http://www.mit.edu/~superconductivity/array.pdf
5EH04 Low-noise S-band DC SQUID Amplifier
G.V. Prokopenko, S.V. Shitov, D.V. Balashov, P.N. Dmitriev, V.P. Koshelets, Institute of
Radio Engineering and Electronics RAS, Moscow, Russia;
J. Mygind, Department of Physics, Technical University of Denmark, Lyngby, Denmark
http://www.cplire.ru/html/lab235/pubs/2000-11.pdf
5EH07 Multi-loop Relaxation Oscillation SQUID Magnetometers with Large Flux-to-Voltage
Transfer Functions
Jun Kawai, G.Uehara, M.Higuchi, H.Ogata, H.Kado, Applied Electronics
Laboratory, Kanazawa Institute
of Technology
http://wwwr.kanazawa-it.ac.jp/ael/document/asc2000/manuscript_5EH07.pdf
5EH11 SQUID Operational Amplifier
K.D.Irwin, National Institute of Standards and Technology, Boulder, Co.; Martin
E.Huber, University of Colorado at Denver, Co.
http://emtech.boulder.nist.gov/div814/pubs/downloads/microcal_papers/irwin00a.pdf
5EIa01 Aircraft Wheel Testing with Remote Eddy Current Technique using a SQUID
Magnetometer
R.Hohmann, D.Lomparski, H.-J.Krause, ISI, Forschungszentrum Jülich;
M.v. Kreutzbruck, IAP, University of Giessen; W.Becker, Lufthansa Technik AG, Frankfurt
http://w3.ascinc.org/manuscripts/papers/5EIa01.pdf
5EIa05 Detection of Deep Flaws by Using The SQUID-based Nondestructive Evaluation System
J.T.Jeng, Y.C.Liu, S.Y.Yang, H.E.Horng, Department of Physics, National Taiwan
Normal University;
H.C. Yang, Department of Physics, National Taiwan University
http://w3.ascinc.org/manuscripts/papers/5EIa05.pdf
5EL04 Nonlinear Simulation and Characterization of HTS Devices Using Harmonic Balance
Algorithms
Carlos Collado, Jordi Mateu, Juan O Callaghan, Universitat Politecnica de
Catalunya (UPC)
http://www-tsc.upc.es/eef/research_lines/supercon2/Supercon/supercon/p5.htm
Large Scale
1LC02 Magnet and Cryostat Configurations For a Multi-port Quadrupole Array
M.A.Green, R.O.Bangerter, Lawrence Berkeley National Laboratory
http://w3.ascinc.org/manuscripts/papers/1LC02.pdf
1LD01 Experimental Verification of the Temperature and Strain Dependence of the Critical
Properties in Nb3Sn Wires
A.Godeke, H.J.G.Krooshoop, B.ten Haken, H.H.J.ten Kate, University of Twente,
Faculty of Applied Physics, Enschede, The Netherlands
http://www-lt.tn.utwente.nl/research/themes/high-curr_ASC2000_frame.htm
1LF01 Construction and Test of a 1 MVA-Class High-Tc Resonator Coil
A.Godeke, O.A.Shevchenko, J.J.Rabbers, B.ten Haken, H.H.J.ten Kate, University
of Twente, Faculty of Applied Physics, Enschede, The Netherlands;
C.J.G.Spoorenberg, SMIT Transformers B.V., Nijmegen, The Netherlands; P.Klein Schiphorst,
SMIT Wire B.V., Nijmegen, The Netherlands;
G.C.Damstra, University of Eindhoven, Eindhoven, The Netherlands
http://www-lt.tn.utwente.nl/research/themes/high-curr_ASC2000_frame.htm
1LG05 Construction of the ATLAS B0 Model Coil
Antoine Daël, Romain Berthier, Christophe Mayri, Yves Pabot, Jean-Michel Rey,
Hubert Van Hille, Cea-Saclay;
E.Acerbi, F.Alessandria, F.Broggi, M.Sorbi, INFN-LASA
http://w3.ascinc.org/manuscripts/papers/1LG05.pdf
1LG07 A Dual 6T Persistent-Mode SC Solenoid Ion-Optical System for Radioactive Nuclear
Beam Research
Fred Becchetti, MuYoung Lee, University of Michigan; J.J.Kolata, University of
Notre Dame
http://w3.ascinc.org/manuscripts/papers/1LG07.pdf
1LH01 Measurements of Magnetic Field Pattern in a Short LHC Dipole Model
Luca Bottura, Michael Schneider, CERN; Marco Breschi, Università di Bologna
http://www.cern.ch/~botturl/1LH01.pdf
1LH02 Interaction between Current Imbalance and Magnetisation in LHC cables
M.Haverkamp, 1)CERN-LHC-MTA CH-1211 Geneva 23, 2)Twente University TN/LT
Postbus 217 NL-7500
AE Enschede; L.Bottura, 1; B.ten Haken, A.Kuijper, 2
http://h.home.cern.ch/h/haverkam/www/1lh02.pdf
1LH05 Quench Protection Heater Studies for the 3rd 1-m Model Magnet for the KEK Low-Beta
Quadrupoles for LHC
E.E.Burkhardt, A.Yamamoto, T.Nakamoto, T.Ogitsu, T.Shintomi, K.Tsuchiya, KEK
http://cry3-dts.kek.jp/~burkee/LHC/Papers/eebasc2000.ps
1LJ05 Analysis of the Impact of Strand Breakage and Copper Location on the Current
Distribution and Stability in Cable-in-Conduit Conductors
N.Mitchell, ITER JCT
http://w3.ascinc.org/manuscripts/papers/1LJ05.pdf
1LK02 The ATLAS Superconducting Magnet System
H.H.J.Ten Kate, CERN
http://w3.ascinc.org/manuscripts/papers/1LK02.pdf
1LK03 Status and Commissioning of the ATLAS Magnet Test
Facility at CERN
Paola Miele, Fernando Cataneo, Alexey Dudarev, Friedrich Haug, Herman
ten Kate, Edo Sbrissa, Peter Schilly, Harri Tyrvainen, CERN; Augusto Leone,
INFN-LASA
http://w3.ascinc.org/manuscripts/papers/1LK03.pdf
1LL02 Tests Results of 2-kWh Flywheel Using Passive PM and HTS Bearings
T.M.Mulcahy, J.R.Hull, K.L.Uherka, Argonne National Laboratory, Argonne, IL,
USA; R.A.Abboud, J.Juna, UNICOM, Chicago, IL, USA
http://w3.ascinc.org/manuscripts/papers/1LL02.pdf
1LL06 Optimization of Levitation Forces
Matthias Zeisberger, Tobias Habisreuther, Doris Litzkendorf, Oleksiy Surzhenko,
Robert Mueller, Wolfgang Gawalek, IPHT Jena, Germany
http://w3.ascinc.org/manuscripts/papers/1LL06.pdf
1LL08 Superconducting Magnets for Maglifter Launch Assist Sleds
J.H.Schultz, J.V.Minervini, A.Radovinsky, B.Smith, R.J.Thome, MIT Plasma
Science and Fusion Center, Cambridge MA;
R.L.Myatt, Myatt Consulting Inc., Norfolk, MA; R.Meinke, M.Senti, Advanced Magnet
Laboratory, Palm Bay, FL
http://w3.ascinc.org/manuscripts/papers/1LL08.pdf
2LC03 Levitation force of a YBaCuO bulk high temperature superconductor over a NdFeB
railway
J.S.Wang, S.Y.Wang, Z.Y.Ren, M.Zhu, H.Jiang, Q.X.Tang, Applied
Superconductivity Laboratory, Southwest Jiaotong University, Chengdu, China
http://w3.ascinc.org/manuscripts/papers/2LC03.pdf
2LC05 Combination levitation force of multi-block YBaCuO bulk high temperature
superconductors
S.Y.Wang, J.S.Wang,Z.Y.Ren, H.Jiang, M.Zhu, Q.X.Tang, Applied Superconductivity
Laboratory, Southwest Jiaotong University, Chengdu, China
http://w3.ascinc.org/manuscripts/papers/2LC05.pdf
2LC07 The Free Solid Dynamics Model with Super Conductive
Rings Currents Interaction
Vasyl Kozoriz, Kyiv State Maritime Academy, Prof.; Genadij Slavko ,
Kremenchuk State Polytechnic Institute
http://w3.ascinc.org/manuscripts/papers/2LC07.pdf
2LD03 Quench Development Analysis in HTSC Coils by Use of the Universal Scaling Theory
V.S.Vysotsky, Yu.A.Ilyin, Institute of Superconductivity and Solid State
Physics of RRC;
A.L.Rakhmanov, SCAPE of Russian Academy of Science, Moscow, Russia; M.Takeo, Kyushu
University, Fukuoka, Japan
http://www-lt.tn.utwente.nl/research/themes/high-curr_ASC2000_frame.htm
2LG07 Contact Resistance Distribution at the Terminations of Cable-in-Conduit
Conductors
P. Bruzzone, EPFL-CRPP
http://w3.ascinc.org/manuscripts/papers/2LG07.pdf
2LH03 Using a Superconducting Magnetic Energy Storage Coil to Improve Efficiency of a Gas
Turbine Powered High Speed Rail Locomotive
B.K.Johnson, J.D.Law, University of Idaho
http://www.ece.uidaho.edu/ee/power/brian/PAPERS/2LH03.pdf
2LH08 New SMES Structures Analysis
Olivier Vincent-Viry, Pr. Alain Mailfert, GREEN
http://w3.ascinc.org/manuscripts/papers/2LH08.pdf
2LI05 Nonlinear Current-Voltage Characteristics of HTS
Conductor and its Application to the Operation of
SFCL
Y. Wang, Z. Qi, W. Wang, C. Li, D. Yin, Department of Physics, Peking
University; L. Lin, L. Xiao, The Institute of Electrical Engineering, Chinese
Academy of Sciences; N. Song, The Institute of Electrical Engineering, Chinese
Academy of Sciences
http://w3.ascinc.org/manuscripts/papers/2LI05.pdf
2LI06 DC Reactance Effect on Bridge Type HTS Fault Current Limiter During Load
Increasing
Tsutomu Hoshino, Khosru Mohammad Salim, Massanori Nishikawa, Itsuya Muta , Taketsune
Nakamura, Kyoto University
ftp://ftp.asl.kuee.kyoto-u.ac.jp/pub/paper/asc/asc00/2li06.pdf
2LL04 Economical and Technical Impacts on a Power System by Introducing an FCL
Mårten Sjöström, EPF Lausanne; Diego Politano, ETH Zürich
http://lanoswww.epfl.ch/publications/papers/ASC_2LL04_preprint.pdf
2LL07 Behavior of a BSCCO Shielded-Core Reactor
M.G.Ennis, T.J.Tobin, S&C Electric Company; Y.S.Cha, J.Hull, Argonne
National Laboratory
http://w3.ascinc.org/manuscripts/papers/2LL07.pdf
3LA04 Conceptual design of high-field Nb3Sn accelerator magnets wound from monolithic
conductors
Andries den Ouden, Bennie ten Haken, Herman ten Kate, University of Twente,
Enschede, The Netherlands
http://www-lt.tn.utwente.nl/research/themes/high-curr_ASC2000_frame.htm
3LC09 Quench development and ultimate normal zone propagation velocity in superconductors
under fast current change
V.S.Vysotsky, Yu.A.Ilyin, ISSSP of RRC; A.L.Rakhmanov, SCAPE of RAS,Russia;
K.Funaki, M. Takeo, Kyushu University,Japan;
K.Shimohata, S.Nakamura, Advanced Technology R&D Center, Mitsubishi Electric Corp.,
Japan;
M.Yamada, K.Hasegawa, The Kansai Electric Power Company Inc., Japan
http://www-lt.tn.utwente.nl/research/themes/high-curr_ASC2000_frame.htm
3LE06 Common Coil Magnet Program at BNL
R. Gupta, M. Anerella, J. Cozzolino, J. Escallier, G. Ganetis, A. Ghosh,
M. Harrison, G. Morgan,
B.Parker, W. Sampson, P. Wanderer, E. Willen, Brookhaven National Laboratory
http://magnets.rhic.bnl.gov/staff/gupta/talks/asc2000/
3LE09 A Thin Superconducting Solenoid for Use in a Phase Rotation Induction Linac
M.A.Green, R.E.Lefever, D.L.Vanecek, S.S Yu, Lawrence Berkeley National
Laboratory
http://w3.ascinc.org/manuscripts/papers/3LE09.pdf
3LE10 Design of a Nb3Sn Quadrupole Magnet Model
A.Devred, M.Durante, C.Gourdin, F.P.Juster, M.Peyrot, J.M.Rifflet, P.Vedrine,
CEA/Saclay
http://w3.ascinc.org/manuscripts/papers/3LE10.pdf
3LF01 Multiphase ac Loss Mechanisms in Prototype Multistrand Conductors
J.O.Willis, D.E.Daney, M.P.Maley, H.J.Boenig, Los Alamos National Laboratory;
R.Mele, G.Coletta, M.Nassi, Pirelli Cavi e Sistemi; J.R.Clem, Iowa State University
http://www.lanl.gov/mst/stc/ASC3LF01.pdf
3LF06 V-I curves of 100-kVA class high-Tc resonator coil
Oleg Shevchenko, Jan Jaap Rabbers, Arno Godeke, Bennie ten Haken,; Herman
H.J.ten Kate,
Faculty of Applied Physics, University of Twente, Enschede, Netherlands
http://www-lt.tn.utwente.nl/research/themes/high-curr_ASC2000_frame.htm
4LA07 Influence of B-Dependence of Critical Current Density on Magnetic Shielding
Performance of MPMG-YBCO Plate
A.Kamitani, K.Hasegawa, S.Ohshima, Yamagata University; T.Yokono, University of
Tsukuba
http://empress.yz.yamagata-u.ac.jp/~kamitani/asc2000/manuscript_4LA07.ps
4LB02 Progress in the development of an 88 mm bore 10 T Nb3Sn model dipole magnet
Andries den Ouden, Sander Wessel, Herman ten Kate, University of Twente,
Enschede, The Netherlands;
Glyn Kirby, Tom Taylor, Norbert Siegel, CERN, Geneva, Switzerland; Hans Boschman, HMA
Power Systems, Ridderkerk, The Netherlands
http://www-lt.tn.utwente.nl/research/themes/high-curr_ASC2000_frame.htm
4LB08 Scaling Laws for Modeling Large Superconducting Solenoids for the Neutrino, Factory
M.A.Green, Lawrence Berkeley National Laboratory, Berkeley CA, USA
http://w3.ascinc.org/manuscripts/papers/4LB08.pdf
4LB09 A Test of a Superconducting Solenoid for the MUCOOL RF Experiment
M.A.Green, Lawrence Berkeley National Laboratory; J.Y.Chen, S.T.Wang, Wang NMR
Inc.
http://w3.ascinc.org/manuscripts/papers/4LB09.pdf
4LB10 Bent Superconducting Solenoids With Superimposed Dipole Fields
R.B.Meinke, Advanced Magnet Lab, Inc., Palm Bay FL; C.L.Goodzeit, Brookhaven
National Laboratory (Ret.), DeSoto,TX
http://w3.ascinc.org/manuscripts/papers/4LB10.pdf
4LD05 Output Power Limit of 200MW Class Brushless Superconducting Generator Excited With
Magnetic Flux-Pump
Hiroshi Tsukiji, Saga University; Itsuya Muta, Tsutomu Hoshino, Kyoto
University
ftp://ftp.asl.kuee.kyoto-u.ac.jp/pub/paper/asc/asc00/4ld05.pdf
4LJ06 Results of AC Loss Tests on Twisted and Untwisted HTSC Tape Exposed to an External
Field
Tri Hardono, Christopher Cook, University of Wollongong
http://w3.ascinc.org/manuscripts/papers/4LJ06.pdf
4LK07 Technical and economical assessment of HTS cables
Diego Politano, ETZ Zürich; Mårten Sjöström, EPF Lausanne;
Gilbert Schnyder, ABB Sécheron SA, Geneva; Jakob Rhyner, ABB Corporate Research Ltd.
Baden
http://lanoswww.epfl.ch/publications/papers/ASC_4LK07_preprint.pdf
4LL01 Transient Characteristics of a High-Tc Superconductor Tube Subjected to Internal and
External Magnetic Fields
Y.S.Cha, Argonne National Laboratory; T.R.Askew, Kalamazoo College
http://w3.ascinc.org/manuscripts/papers/4LL01.pdf
4LL03 Quenching Behaviour of Superconductors in An Inductive Fault Current Limiter
Y.C.Tan, P.D.Evans, The Univ. of Birmingham
http://web.bham.ac.uk/yct849/ascpaper.htm
5LB07 Influence of deformation rate and post annealing on critical current
density of textured Bi-2223 current leads
X.K.Fu, Y.C.Guo, H.K.Liu, S.X.Dou, Univsrsity of Wollongong
http://w3.ascinc.org/manuscripts/papers/5LB07.pdf
5LE05 The Effect of Low Temperature Cryocoolers on the Development of Low Temperature
Superconducting Magnets
M.A.Green, Lawrewnce Berkeley National Laboratory
http://w3.ascinc.org/manuscripts/papers/5LE05.pdf
5LF01 An engineering approach to describe the AC loss of BSCCO/Ag tape
Jan-Jaap Rabbers, Bennie ten Haken, Oleg Shevchenko, Herman ten Kate,
University of Twente, Faculty of Applied Physics, Low Temperature Division
http://www-lt.tn.utwente.nl/research/themes/high-curr_ASC2000_frame.htm
Materials
1MA01 Study on the Growth Mechanism of the Ribbon-like Thin Films of Bi-2212
S.Arisawa, K Togano, NRIM, JST-CREST; H.Miao, JST-CREST; Y.Takano, A.Ishii,
T.Mochiku, T. Hatano, NRIM; Y.Satho, Univ. Tsukuba
http://w3.ascinc.org/manuscripts/papers/1MA01.pdf
1MB05 TEM Structure Characterization of Si/YSZ/YBCO High-Temperature Superconductor Thin
Film Heterostructures
F.Yang, P.Brown, T.Khan, Yu. Vlasov, K.H.Wu, G.L.Larkins, Jr., Florida
International University
http://www.fiu.edu/~vlassovy/1MB05.pdf
1MB08 The Characterization of Thermal Cycling Behavior of Si/YSZ/YBCO High-Temperature
Superconductor Thin Films
F.Yang, K.H.Wu, G.L.Larkins, Jr., Florida International University
http://www.fiu.edu/~vlassovy/1MB08.pdf
1MC04 Interstrand and AC Loss Measurements on Rutherford-Type Cables for Accelerator
Magnet Applications
Rachid Otmani, Alstom / MSA; Arnaud Devred, CEA Saclay; Pascal Tixador,
CNRS-CRTBT
http://w3.ascinc.org/manuscripts/papers/1MC04.pdf
1MC08 Low-Frequency AC Susceptibility due to the Interplay of Various Loss Mechanisms in
HTS
Wei Wang, Yu Wang, Chuanyi Li, Kaixuan Chen, Guo Lu, Daole Yin, Department of
Physics, Peking University;
Liye Xiao, Liangzhen Lin, Naihao Song, The Institute of Electrical Engineering, Chinese
Academy of Sciences
http://w3.ascinc.org/manuscripts/papers/1MC08.pdf
1MC09 AC losses in multifilamentary tapes exposed to transverse AC magnetic fields
Stefania Farinon, Pasquale Fabbricatore, Stefania Innocenti, INFN Genova; Fedor
Gomory, IEE Bratislava
http://www.ge.infn.it/~farinon/farinon.pdf
1MD09 Fabrication and characterization of microstructural evolution and
properties of twisted Bi-2223 superconductor tape
Jun Hyung Lim, Jinho Joo, Wansoo Nah, Sungkyunkwan University; Mihye Jang,
Taekuk Ko, Yonsei University;
Sang-Jin Lee, Uiduk University; Hong-Soo Ha, Sang-Soo Oh, Korea Electrotechnology Research
Institute
http://w3.ascinc.org/manuscripts/papers/1MD09.pdf
1MD10 The effect of flux diverters on AC losses of a 10kVA High Temperature
Superconducting Demonstrator Transformer
M.K.Al-Mosawi, C.Beduz, Y.Yang, M.Webb, Institute of Cryogenics, University of
Southampton, Southampton, UK; A.Power, National Grid Company plc, UK
http://w3.ascinc.org/manuscripts/papers/1MD10.pdf
1ME01 Observation of Individual Josephson Vortices in YBCO Bicrystal Grain-Boundary
Junctions
D.E.Oates, G.Dresselhaus, M.S.Dresselhaus, MIT Lincoln Lab; H.Xin, MIT and AFRL
http://w3.ascinc.org/manuscripts/papers/1ME01.pdf
1MI02 Epitxial Growth of YBCO Thin Film on a Single-Domain YBCO Substrate for rf Component
Development
Donglu Shi, Jongli Xu, David Qu, Hong Sang Rho, Relva Buchanan, Altan
Ferendeci, University of
Cincinnati
http://biomat404.mse.uc.edu/asc2000
1MJ07 Pulsed DC Magnetron Sputtering of YSZ Buffer Layers on Si (100)
P.Brown, T.Khan, S.Sayed, Yu. Vlasov, G.L.Larkins, Florida International
University; P.Stampe, R. Kennedy, Florida A&M University
http://www.fiu.edu/~vlassovy/1MJ07.pdf
1MK08 Ex-situ post-deposition processing for large area YBCO films and coated tapes
V.F.Solovyov, H.J.Wiesmann, L-J.Wu, Y.Zhu, M.Suenaga, Brookhaven National
Laboratory
http://w3.ascinc.org/manuscripts/papers/1MK08.pdf
1ML03 Microstructure and Electrical Properties of BSCCO Tapes
with Ceramic Barriers
W.Hässler, M.Schubert, C.Rodig, V.Haas, IFW Dresden; M.Leghissa,
Siemens AG Erlangen; Th.Berthold, Siemens AG München
http://w3.ascinc.org/manuscripts/papers/1ML03.pdf
1ML04 AC losses in DCMB (dip coated mixed barrier) and internally stranded RBB (ring
bundle barrier) multifilamentary BSCCO(2223) tapes with resistive barriers
H Eckelmann, J Krelaus, R Nast, W Goldacker, Forschungszentrum Karlsruhe
http://w3.ascinc.org/manuscripts/papers/1ML04.pdf
2MA07 Ic/temperature characteristics for BiPb2223 tapes sintered in a temperature gradient
with 7.5 percent O2 and air
E.A.Young, Y.Yang, C.Beduz, University of Southampton
http://w3.ascinc.org/manuscripts/papers/2MA07.pdf
2MB04 Properties of resistive- and supercodncuting-joint of Bi-2223 superconductor tape
Jung Ho Kim, Jun Hyung Lim, Jinho Joo, Wansoo Nah, Sungkyunkwan University
http://w3.ascinc.org/manuscripts/papers/2MB04.pdf
2MD01 Strain Effect in Bi-based Oxide/Ag Superconducting Tapes
H.Kitaguchi, K.Itoh, K.Kumakura, T.Takeuchi, K.Togano, H.Wada, National
Research Institute for Metals
http://w3.ascinc.org/manuscripts/papers/2MD01.pdf
2MD03 Characterization of the Thermal and Mechanical Behaviors of Stacks of Insulated
Cables
Representative of Accelerator Magnet Coil Assemblies
Magali Reytier, Philippe Bredy, Arnaud Devred, Maria Durante, Cedric Gourdin,
Pierre Vedrine, CEA Saclay
http://w3.ascinc.org/manuscripts/papers/2MD03.pdf
2MD08 Test Station for Magnetization Measurements on Large Quantities of
Superconducting Strands
Sandrine Le Naour, Jacques Billan, Jacques Genest, Rob Wolf, CERN
http://wolf.home.cern.ch/wolf/papers/ASC_2000paper.pdf
2MG05 Coated Conductors of (HgPb)Ba2Ca2Cu3Ox and (HgRe)Ba2Ca2Cu3Ox on Ni/YSZ substrates
Jianhua Su, J.Schwartz, NHMFL & Dept. of Mechanical Engineering, FAMU-FSU
Colleage of Engineering,Tallahassee,FL; P.V.P.S.S.Sastry, NHMFL,Tallahassee, FL
http://w3.ascinc.org/manuscripts/papers/2MG05.pdf
2MI04 Low-temperature scanning laser microscopy of individual filaments extracted from
(Bi,Pb)2Sr2Ca2Cu3O(10+x)/Ag tapes
A.G.Sivakov, A.V.Lukashenko, Institute for Low Temperature Physics and
Engineering, Ukraine;
D.Abraimov, M.V.Fistul, P.Mueller, A.V.Ustinov, Physics Institute III, University of
Erlangen-Nuremberg, Germany
http://www.physik.uni-erlangen.de/PI3/ustinov/publications/2000/asc_abraimov00a.pdf
2MI05 High resolution magneto-optical imaging of superconducting thin films and devices
S.Flament, W.Warsito, D.Bloyet, GREYC-ISMRA
http://w3.ascinc.org/manuscripts/papers/2MI05.pdf
2MJ06 Superconducting properties of Y1Nd1+xBa2-xCu3O7-delta and Nd1+xBa2-xCu3O7-delta thin
films deposited by dc sputtering
M.S Alluzzo, M.Iavarone, A.Andreone, A.Cassinese, G.Pica, R.Vaglio, INFM and
Department of Physics University of Naples
http://w3.ascinc.org/manuscripts/papers/2MJ06.pdf
2MJ07 Correlation between Cu Deficiencies and Changes in
the Structural and Electrical Properties of Y-Ba-Cu-O
Films
W.Hattori, T.Yoshitake, S.Tahara, NEC Corporation
http://www.labs.nec.co.jp/super/2MJ07Hattori.pdf
2MK01 Accuracy Issues in Surface Resistance Measurements of High Temperature
Superconductors Using Dielectric Resonators
Janina Mazierska, James Cook University; Charles Wilker, DuPont
Superconductivity
http://w3.ascinc.org/manuscripts/papers/2MK01.pdf
2ML02 Processing Issues for High Critical Current Density in Long BSCCO-2212 Composites
K.Marken, J.Parrell, J.Sowa, S.Hong, Oxford Instruments
http://w3.ascinc.org/manuscripts/papers/2ML02.pdf
2ML06 Spatial variation of the local critical current density in Bi-2223 superconducting
tapes
Olaf van der Meer, Hans van Eck, Bennie ten Haken, Herman ten Kate, University
of Twente, Faculty of Applied Physics, Low Temperature Division
http://www-lt.tn.utwente.nl/research/themes/high-curr_ASC2000_frame.htm
2ML08 Examination of Current Limiting Mechanisms in
Monocore Bi2Sr2Ca2Cu3Ox Tape with High Critical Current Density
A. Polyanskii, D.M. Feldmann, S. Patnaik, J. Jiang, X. Cai, D.
Larbalestier, UW-Madison WI;
K.DeMoranville, D. Yu, R. Parrella, ASC Westborough MA
http://w3.ascinc.org/manuscripts/papers/2ML08.pdf
3MA03 Characterization of thermal conductivity and mechanical property of sheath alloy
materials for Bi-2223 superconductor tape
Hyung Sang Park, Bong Ki Ji, Jun Hyung Lim, Jinho Joo, Wansoo Nah, Sungkyunkwan
University; Jaimoo Yoo, Korea Institute of Machinery and Materials
http://w3.ascinc.org/manuscripts/papers/3MA03.pdf
3MD07 Temperature and magnetic field dependence of the critical current of Bi2Sr2Ca2Cu3Ox
single filaments and tape conductors
D.C.van der Laan, Univ. of Twente, Enschede, The Netherlands & NHMFL,
Tallahassee, Fl, USA;
H.J.N.van Eck, B.ten Haken, H.H.J.ten Kate, Univ. of Twente, Enschede, The Netherlands;
J.Schwartz, NHMFL, Tallahassee, Fl,USA & FAMU-FSU College of Eng., Tallahassee, Fl,
USA
http://www-lt.tn.utwente.nl/research/themes/high-curr_ASC2000_frame.htm
3ME04 In Situ High Rate Growth of High Temperature Superconductor Tapes
Luke S.-J.Peng, Weizhi Wang, Robert H.Hammond, William Jo, Malcolm R.Beasley,
Edward L.Ginzton Lab, Stanford University
http://www.geocities.com/lsj_peng/paper/ASC2000_3ME04.pdf
3MG05 Radio-frequency electromagnetic field influence on critical behavior of thin
granular YBCO films
Sergey Harutyunyan, Ashot Gyulamiryan, Institute Physics Research
http://w3.ascinc.org/manuscripts/papers/3MG05.pdf
3MG06 Non-Linear Response of BSCCO Single Crystals at Microwave Frequencies
G.I.Leviev, V.M.Genkin, V.V.Bolginov, L.V.Ovchinnikova, ISSP RAS
http://www.mindroute.com/science/rep2m-1.pdf
4MG04 The Influence of the Starting Cu-Sn Phase on the Superconducting Properties of
Subsequently Reacted Internal-Sn Nb3Sn Conductors
M.Naus, P.Lee, D.Larbalestier, Applied Superconductivity Center, University of
Wisconsin, Madison WI USA
http://www.cae.wisc.edu/~naus/naus_ASC2000paper.pdf
4MH04 Thermal Conductivity of RNi_2B_2C (R=Y, Gd, Dy, Ho, Er, Tm, and Lu) Systems
Shixun Cao, Shuji Sakai, Katsuhiko Nishimura, Katsunori Mori, Faculty of
Engineering, Toyama University, Gofuku, Toyama, Japan
http://w3.ascinc.org/manuscripts/papers/4MH04.pdf
4MH06 Upper Critical Field of Borocarbide Superconductors
M.D.Lan, J.C.Chang, K.T.Lu, C.Y.Lee, H.Y.Shih, G.Y.Jeng, NCHU
http://w3.ascinc.org/manuscripts/papers/4MH06.pdf
4MI02 Normal Zone Propagation Characteristics of Nb3Sn Wires with Jelly-Roll Processed and
In-Situ Processed CuNb Reinforcements
Satoru Murase, Tomoyuki Murakami, Toshiyuki Seto, Susumu Shimamoto, Graduate
School of Engineering, Tohoku University;
Satoshi Awaji, Kazuo Watanabe, Institute for Materials Research, Tohoku University; Genzo
Iwaki, Hitachi Cable, Ltd.; Takashi Saito, Fujikura, Ltd.
http://w3.ascinc.org/manuscripts/papers/4MI02.pdf
4MK03 Compositional and Microstructural Profiles across Nb3Sn Filaments
P.J.Lee, C.D.Hawes, M.T.Naus, A.A.Squitieri, D.C.Larbalestier, Applied
Superconductivity Center, University of Wisconsin-Madison
http://asc.wisc.edu/pubs/pub662.pdf
4MK04 Microstructure and Current-Voltage Characteristics of
Bronze Processed Niobium Tin Composites
Rainer Kimmich, Frank Hornung, Astrid Rimikis, Theo Schneider,
Forschungszentrum Karlsruhe
http://asc.wisc.edu/pubs/pub674.pdf
4ML05 Trapped fields beyond 14 Tesla in bulk YBCO
Günter Fuchs, Gernot Krabbes, Stefan Gruss, Peter Verges, Karl-Hartmut
Müller, Jörg Fink, Ludwig Schultz, IFW Dresden
http://www.ifw-dresden.de/~gruss/asc/asc20004ml05.pdf
5MA01 Fast Healing of Deformation-Induced Damage in
Ag/Bi-2223 Tapes
A. Polyanskii, University of Wisconsin, Applied Superconductivity;
V.M. Beilin, E. Yashchin, A.Goldgirsh, M. Roth, Hebrew University of
Jerusalem;
D. Larbalestier, University of Wisconsin, Applied Superconductivity
http://w3.ascinc.org/manuscripts/papers/5MA01.pdf
5MA02 The effect of applied intermediate pressing techniques in the OPIT fabrication
on
the current paths and the current carrying capability of multifilamentary Bi-2223 tapes
P.Skov-Hansen, M.R.Koblischka, P.Vase, NST; A.Polyanskii, D.Larbalestier,
University of Wisconsin;
P.Kovac, Slovak Academy of Sciences; F.Marti, R.Flukiger, University of Geneva
http://w3.ascinc.org/manuscripts/papers/5MA02.pdf
5MA05 Comparative studies on sandwich rolling and flat rolling in
processing Ag/Bi-2223 tapes
W.M.Chen, Y.C.Guo, G.McCaughey, H.K.Liu, S.X.Dou, Institute for superconducting
and electronic materials;
A.Polyanskii, D.Larbalestier, Applied Superconductivity Center; M.Appeyley, Australian
Superconductors
http://w3.ascinc.org/manuscripts/papers/5MA05.pdf
5MA10 Interface irregularity and texture evolution of Bi-Sr-Ca-Cu-O superconductor tape
processed by PIT method
Bong Ki Ji, Hyung Sang Park, Seung Jin Oh, Jinho Joo, Wansoo Nah, Sungkyunkwan
University; N.J.
Park, KumhoUniversity of Technology; Gye-Won Hong, Korea Atomic Research Institute
http://w3.ascinc.org/manuscripts/papers/5MA10.pdf
5MA11 Magneto-optical imaging for Ag/Bi-2223 tapes processed by using various processes
H.K.Liu, R.Zhen, W.M.Chen, Y.C.Guo, G.MacCaughey, S.X.Dou, University of
Wollongong;
A.Polyanskii, University of Wisconsin; M.Apperley, Australian Superconductors Ltd
http://w3.ascinc.org/manuscripts/papers/5MA11.pdf
5MB03 Magneto-Optical Imaging of Transport Currents in YBa2Cu3O7-x on RABiTS
D.M.Feldmann, J.L.Reeves, A.A.Polyanskii, S.E.Babcock, D.C.Larbalestier,
University of Wisconsin;
A.Goyal, R.Feenstra, M.Paranthaman, D.M.Kroeger, D.K.Christen, Oak Ridge National
Laboratory
http://www.asc.wisc.edu/ascimages/mo/feldmann_ieee.pdf
5MB04 Critical Current Hysteresis in Low Angle YBCO BICrystals
Vincenzo Boffa, Giuseppe Celentano, Traian Petrisor, ENEA Frascati; Umberto
Gambardella, Gaia Grimaldi, Sandro Pace, INFM Salerno
http://gamba.sa.infn.it/Documents/ASC2000_1.pdf
5MC03 Upper critical field anisotropy in Nb-Ti tapes
Lance Cooley, Anand Patel, Applied Superconductivity Center, University of
Wisconsin
http://www.cae.wisc.edu/~lcooley/
5MD01 Preparation of Nb3Sn thin films by sputter deposition of Nb onto hot recrystallized
bronze tapes
Lance Cooley, Bill Starch, Peter Lee, Applied Superconductivity Center,
University of Wisconsin
http://www.cae.wisc.edu/~lcooley/
5ME03 Production of Double-Sided Large-Area High-Tc Wafers by MBE
M.Naito, S.Karimoto, H.Yamamoto, NTT Basic Research Laboratories; H.Nakada,
K.Suzuki, SRL- ISTEC
http://w3.ascinc.org/manuscripts/papers/5ME03.pdf
5ME04 Three Simple Methods to Obtain Large Area Thin Films by Pulsed Laser Deposition
Armen Kuzanyan, Georgi Badalyan, Volodya Karapetyan, Ashot Gyulamiryan,
Institute Physics Research; Armen Gulian, NRL, Washington, DC
http://w3.ascinc.org/manuscripts/papers/5ME04.pdf
5ME06 Some peculiarites of pulsed laser deposition of the large area thin films
Armen Kuzanyan, Georgi Badalyan, Vahan Nikoghosyan, Institute Physics Research;
Armen Gulian, NRL, Washington, DC, USA
http://w3.ascinc.org/manuscripts/papers/5ME06.pdf
5MG02 Transport properties in multifilamentary Ag-sheathed Bi-2223 tapes
under the influence of strain
Takanobu Kiss, Dept. of Electrical and Electronic Systems Engineering, Kyushu
University;
Hans van Eck, Bennie ten Haken, Harman H.J.ten Kate, Low Temperature Division, University
of Twente
http://www-lt.tn.utwente.nl/research/themes/high-curr_ASC2000_frame.htm
5MG08 Field dependence of Jc for filamentary ReBCO superconductors prepared by a solution
spinning method
Tomoko Goto, Nagoya Institute of Technology; Kazuo Watanabe, Tohoku University
http://nitzw.mse.nitech.ac.jp/~gotoken/PAPERASC2.DOC
5MH02 The Upper Critical Field Hc2 of Ag/Bi-2223 Tapes
W.M.Chen, S.S.Jiang, National Laboratory of Solid State
Microstructures, NanjingUniversity, Nanjing, P.R.China;
H.K.Liu, S.X.Dou, Institute for Superconducting and Electronic Materials, University of
Wollongong,
http://w3.ascinc.org/manuscripts/papers/5MH02.pdf
5MJ03 Different nature of vortex-phase tranformations in zero field cooled and field
cooled magnetisation of polycrystalline Bi-2212
A.K.Ghosh, A.N.Basu, CMPRC, Department of Physics, Jadavpur University,
Calcutta
http://w3.ascinc.org/manuscripts/papers/5MJ03.pdf
5MJ07 Transient Response of 50 kA YBCO Rings and Ring Pairs to Pulsed Fields
T.R.Askew, Kalamazoo College and Argonne Nat. Lab.; Y.S.Cha, Argonne Nat. Lab.
http://w3.ascinc.org/manuscripts/papers/5MJ07.pdf
5MK03 Linear Defects in Epitaxially-Grown YBa2Cu3O7-d Films: Their Role in Anisotropic
Vortex Pinning and Surface Resistance
V.M.Pan, V.S.Flis, O.P.Karasevska, V.A.Komashko, A.V.Pronin, Institute for
Metal Physics, Kiev, Ukraine;
V.L.Svetchnikov, H.W.Zandbergen, National Centre for HREM, TU Delft, Delft,The
Netherlands;
M.Lorenz, Institute for Experimental Physics II, University of Leipzig, Germany
http://w3.ascinc.org/manuscripts/papers/5MK03.pdf