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James Abbee u.s. Department of Energy
Ken Abbott High Tech Services
Deborah L. Abrahamson U.S. Department of Eneregy
Frank S. Adams TSA
Pedro Aguirre Aguirre Associates Inc.
Bulent Aksel SSC Laboratory
Gary Albert General Dynamics
T. M. Alexander Sr. Alexander & Company
David Alger Babcock & Wilcox
A. W. R. Allcock British Embassy
Michael Allen SSC Laboratory
Ed Altgilbers Inland Steel
Bruce Andersen H&J Tool & Die
Charles E. Anderson Air Products & Chemicals Inc.
Kathy Anderson SSC Laboratory
David Anderson SSC Laboratory
Richard W. Anderson Analogic Corp.
Attendees
Owen W. Anglum Armco
Thomas Ankermann Koch Process Systems, Inc.
NarkoAntti University of Helsinki/SEPT
Thomas W. Appelquist Yale University
William A. Appleton CVI Inc.
Craig S. Arden SSC Laboratory
Katsuhiko Asano Hitachi, Ltd
Richard F. Atkinson Silvex, Inc.
Gordon 1. Aubrecht Ohio State University
Stanislaw D. Augustynowicz SSC Laboratory
Betzalel Avitzur Metalfonning Inc.
A. F. Axt Westinghouse
Paul S. Ayres Babcock & Wilcox
Neil V. Bagget SSC Laboratory
Penny Baggett SSC Laboratory
Scott Bagwell SSC Laboratory
Steve Baier Honeywell SRC
1177
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David B. Bailey SSC Laboratory
Richard Bailey General Dynamics
Jon Bakken Martin Marietta
Robert W. Baldi General Dynamics
Joseph Ballam SSC/SLAC
Robert Balliett NRC Inc.
Teresa Ballinger EG&G Energy Measurements
Bailey S. Barash CNN Science News
Oscar Barbalat CERN
Marcel M. Barbier Marcel M. Barbier, Inc.
Victoria Bardos SSC Laboratory
Dan Baritchi SSC Laboratory
Thomas A. Barracato Air Products & Chemicals, Inc.
Rep. Joe Barton (R)-Texas
Suzanne Bass Office of Rep. Jim Chapman
Kurt E. Bassett Martin Marietta
Irv Baston AFA
Laura P. Bautz Lawrence Berkeley Laboratory
Donald S. Beard
G. F. Beatty LTV Steel Company
Didier Bederede CEN Saclay
M. C. Begg Tesla Engineering Ltd.
Mark R. Behan Grumman Aerospace
Jay Benesch U.S. Department of Energy
1178
Barry R. Benroth U.S. Department of Energy
Daryl Bever General Dynamics
Jack P. Biegalski Inland Steel Co.
William Birkholz Brookhaven National Laboratory
Paul A. Bish Lawrence Berkeley Laboratory
Charles D. Bizilj Howden Compressors, Inc.
Alan Blakeley Johnson Controls Inc.
George J. Blanar LeCroy Corp.
R. J. Blanken ffiM
A. C. Blankenship Trans-Tech Inc.
Miriam Bleadon Fermilab
Michael C. Boivin New England Electric Wire
John W. Bonn CVIlnc.
Franz V. Boos MPI International, Inc.
Regina Borchard Martin Marietta
William Boroski Fermilab
Rodger Bossert Fermilab
M. Bruce Boswell Westinghouse Electric Corp.
Clark Boyd Pressure Systems Inc.
Kurt Brandenberger Von Roll Isola
Frank L. Brandon E-Systems Inc.
Richard J. Briggs SSC Laboratory
Mark W. Broadley Handy & Harman Tube
J. Broadus Constr. Industry Institute
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John E. Brogan Danco Precision, Inc.
G. M. Brown SSC Laboratory
Donald P. Brown Brookhaven National Laboratory
J. Michael Brown Minnesota Valley Engineering
Steve Brown Long-Airdox Company
Kent Browning Lockheed Missiles & Space Co.
John C. Bruno J&L Specialty Products
Warren Buckles Superconductivity
J. Fred Bucy Texas Nat'! Research Lab.Commission
Mark Bugeaud Digital Equipment
Lawrence D. Buhl Copper & Brass Sales Inc.
Joe Bularzik Inland Steel
Michael A. Burke Westinghouse STC
Paul R. Burke Kurt 1. Lesker Co.
Thomas O. Bush SSC Laboratory
1. M. Butler Westinghouse
Robin Caldwell IBM
Kateri Callahan IASSC
Larry Camilli Air Products & Chemicals Inc.
H. Glenn Campbell Babcock & Wilcox
John Campbell Cryogas International
Barry Cantor Babcock & Wilcox
R. Michael Capers Scientific Instruments
Donald W. Capone SSC Laboratory
Claudio Caprio IBM
Ruben Carcagno SSC Laboratory
1. W. Carey Trimnf
Lee Carlson Superconductor Technology Magazine
James R. Carney U.S. Department of Energy
Annette Caudiano Mitsui & Co. (USA), Inc.
Alberto Cerri Swiss Metal
C. David Chaffee AIS-Super Collider News
Rep. Jim Chapman (D)-Texas
Anthony K. Chargin Lawrence Livermore National Laboratory
Greg Chartrand SSC Laboratory
Coby Chase SSC Laboratory
Sherman Chen SSC Laboratory
Dennis R. Cheney INEL
Warren E. Chester Crest Products Corp.
Denis Christopherson SSC Laboratory
Robert E. Cieslukowski Minnesota Valley Eng.
Joseph R. Cipriano U.S. Department of Energy
Brad Clark Digital Equipment Corp.
Alan Clark McDonnell Douglas
Susan Claude Sheldahl
Herschel Wayne Clay SSC Laboratory
John L. Clendenin Bellsouth Corp.
Tony Cochrane Ziemer & Associates
1179
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Michael Coffey Cryomagnetics Inc.
William S. Cogger Allied Apical Co.
Ben Cole SSC Laboratory
Mark Coles SSC Laboratory
E.W. Collings Battelle
Thomas C. Collins University of Tennessee
J. A. (Buddy) Conner Babcock & Wilcox
Maury L. Constien IBM
Todd Cottrell NorplexOak
Larry Coulson SSC Laboratory
William J. Courtney IBM
Jeff Cox SSC Laboratory
Dennis Cox SSC Laboratory
Jimmy K. Cox TUElectric
Robert Crane IDMCorp.
Mark Crawford New Technology Week
Sam Crivello SSC Laboratory
Wayne Cross c/o Steve Hicks IBM
Paul Cunningham Welded Ring Products
Frank Cunningham Swagelok Co.
Richard L. Curl PB/MKTeam
Roy Cutler SSC Laboratory
Edward Daly SSC Laboratory
Larry Darby Babcock & Wilcox
1180
Mark A. Davidson Fermilab
Charles Davidson Gwinnet Daily News
William I. Davison Baltimore Spec. Steels
Dean De Benedet Martin Marietta
TomDeany Nor-Cal
Artie G. Debeling EG&G Energy Measurements
Earl Dedman Aguirre Associates Inc.
I. G. Deley Westinghouse
Bill Dennis Dow Corning Corp.
Peter C. Dent Lake Shore Cryotronics Inc.
KurtDerr EG&G Idaho Inc.
Arnaud Devred SSC Laboratory
Nickolas Di Giacomo Martin Marietta
Carl Dickey SSC Laboratory
Robert E. Diebold U. S. Department of Energy
Hollye C. Doane National SSC Coalition
Stephen Doherty Alcatel Vacuum Prod. Inc.
Thomas Dombeck SSC Laboratory
Edward Donley Air Products & Chemicals Inc.
Duncan Douglas Douglas Eng. Co.
Lois Dowd Digital Equipment Corp.
John R. Dowdle C. S. Draper Laboratory. Inc.
Gilbert Drouet CERN
Rens L. Dubbeldam Holec Ridderkerk
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Tom Dudley Flexonics Inc.
Sandra P. Dunn Texas Nat'l. Research Lab. Commission
William J. Dyess Major Tool & Machine Inc.
John C. Dykstra Minnesota Valley Engineering
James P. Eaton Minnesota Valley Engineering
P. W. Eckels G.E. Medical Systems
William R. Edwards Lawrence Berkeley Laboratory
Don Edwards SSC Laboratory
Kenneth R. Efferson American Magnetics Inc.
Tor Ekenberg Argonne National Laboratory
Anthony J. Elarn IBM Federal Sector
Mike Erdahl Loral Corp.
Mark Erdmann SSC Laboratory
Timo Erkolahti Outokumpu Copper USA, Inc.
Roger A. Farrell Intermagnetics General Corp.
Chris Farver Allen-Bradley
Anthony Favale Grumman Aerospace Corp.
Susan Feeney Dallas Morning News
James H. Ferrell SSC Laboratory
Michael L. Ferris SAES Getters USA
J. A. Fickling Westinghouse
William A. Pietz SSC Laboratory
Ron Fincher AT&T Federal Systems
Michele Fisher IBM
Terry Fleener Ball Aerospace
Adrian Fliihmann Werner Fluehmann Ag
David G. Fong Energy, Mines & Resources, Canada
Martin Fortner U.S. General Accounting Office
David Fortunato SSC Laboratory
William B. Fowler Fermilab
Ray Fox SSC Laboratory
Jim Fraivillig DuPont
Arthur W. Francis Union Carbide Industrial Gases
Jim Franciscovich SSC Laboratory
Keith Franck Lawrence Berkeley Laboratory
Thomas K. Frasier Gardner Cryogencis
Jim Freim Furukawa Electric Technology
James French SSC Laboratory
Ray Fricken U. S. Department of Energy
Richard L. Frohlich Westinghouse - Sunnyvale
David Frost Supercon, Inc.
Touru Fukuhara Mitsubishi Heavy Industries Ltd.
Gordon T. Fuller Trans-Tech, Inc.
James Fusco ITEN Industries
JarnesE. Fye IBM
Philip O. Gagnon General Physics Corp.
Henry M. Gandy Americans for the SSC
RaoGanni SSC Laboratory
1181
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Raj K. Gatto SSC Laboratory
Marcel Gaudreau MIT Rod Gerig SSC Laboratory
Robert J. Gibbs Brookhaven National Laboratory
Garry W. Gibbs U.S. Department of Energy
Paul H. Gilbert PBIMKTeam
Murdock Gilchriese Lawrence Berkeley Laboratory
A. Van Ginneken Fennilab
Giuseppe Scarfi Ansaldo
L. David Godbey HDR Cathy Golden City of Dallas
Leonard M. Goldman Bechtel Corp.
NonnanGomm Embassy of Australia
Jack Goodman Lockheed Research Laboratorys
Carl L. Goodzeit SSC Laboratory
Michael Gordon KMI Services
Peter J. Gossens General Dynamics
Stephen R. Gottesman Grumman Corp. Research Center
James A. Gray SSC Laboratory
Thomas H. Gray Allegheny Ludlum Corp.
Michael 1. Green Lawrence Berkeley Laboratory
Michael A. Green Lawrence Berkeley Laboratory
Arthur F. Greene Brookhaven National Laboratory
S. Steven Greenfield Parsons Brinckerhoff Inc.
1182
Jacques Greetis Flexonics Inc.
Eric Gregory IGC Advanced Superconductor
Doug Grones SSC Laboratory
Charles Grozis Fermilab
John A. Gruver Westinghouse Electric Corp.
Victor Guarino Argonne National Laboratory
Jeff Guillot Halgo Field Services, Inc.
George Gunn Logicon
Ramesh Gupta Brookhaven National Laboratory
DavidGurd SSC Laboratory
F. J. Gurney Westinghouse
H. Gurol General Dynamics
Ahmet Gursoy PBIMKTeam
Gregory Haas U.S. Department of Energy
Bernhard Haberthuer Sulzer USA Inc.
David Haenni SSC Laboratory
John Eric Haggard Fermilab
Phyllis Hale SSC Laboratory
Ann Hardie Atlanta Journal-Constitution
William E. Harrison Brookhaven National Laboratory
Kenneth O. Hartley PBIMKTeam
Don Harwell Cryenco Inc.
Nick Hassan SSC Laboratory
William N. Hasselkus DOE-OSSC
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Dan Hatfield SSC Laboratory
Bill Hawkins IronWorker
Robert Hedderick SSC Laboratory
Tricia Heger Fermilab
Warner Heilbrunn SSC Laboratory
Ezra D. Heitowit Universities Research Assn.
Keith Helart Ball Aerospace
Roland Hellmer Balzers
Barry L. Hendrix SSC Laboratory
Steve L. Hensley CVIInc.
Frank Hervey Jr Hyspan Precision Products Inc.
Wilmot N. Hess U.S. Department of Energy
Susan Hickey Lockheed Missiles & Space Co.
Steve Hicks mM W. Kent Higgins Koch Process Systems Inc.
Gale Hill PB/MKTeam
Ron Hill KMI Services
John Hill UTDInc.
Gia KyHoang Alsthom Intermagnetics
Dave Hodan Digital Equipment Corp.
Matthew Hoff Lawrence Berkeley Laboratory
Charles B. Hood CVIInc.
Richard P. Hora General Dynamics
Ron Horan KMI Services
Peter A. Horton Taracorp Industries
Kenji Hosoyama KEK
Michael B. Hoye InterFET Corp
Robert E. Hughes Associated Universities Inc.
Steve Hunt SSC Laboratory
Dan Hutton SSC Laboratory
Ralph Hutton DuPont Co.
Masaru Ikeda Furukawa Electric
J. Jeffrey Irons Grumman
Hisashi Ishida Kawasaki Steel America Inc.
Tutomu Isobe Furukawa Electric
Hans J. Israel Holec Ridderkerk
Jon R. Ives SSC Laboratory
Robert Jacbosen Directed Technologies Inc.
Abdul Jalloh SSC Laboratory
Dan Janikowski Trent Tube
Andrew J. Jarabak Westinghouse Electric Corp.
R. Jayakumar SSC Laboratory
Wendell W. Jesseman New England Electric Wire
Don Johansen Babcock & Wilcox
David H. Johnson Howden Compressors, Inc.
David E. Johnson SSC Laboratory
Curtis D. Johnson University of Houston
Robert A. Johnson General Dynamics
1183
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Proctor Jones EnergylWater Dev., Appropriations
N. B. "Buck" Jordan Waxahachie Chamber of Commerce
Donald Jordan Spaulding Composites Co.
Tom A. Jouvanis United Engineers & Constructors
Doug Juanarena Pressure Systems
Ralph Kalkbrenner Westinghouse PQC
Jill Kallsen Teledyne SC
Hem Kanithi IOC Advanced Superconductor
Raphael Kasper SSC Laboratory
Osamu Kawamata Hitachi Cable America Inc.
Eugene Kelly Brookhaven National Laboratory
John M. Kennedy Texas Nat'l Research Lab. Commission
John E. Kenny Jr. Kenny Construction Co.
Willem Keyer Koch Process Systems Inc.
Edmund Killian Brookhaven National Laboratory
Glenn E. Kinard Air Products & Chemicals Inc.
Nancy O. King SSC Laboratory
Thomas B. W. Kirk Argonne National Laboratory
P. A. Kitchin Tesla Engineering
Sherrie "Sam" Kivlighn SSC Laboratory
R. Kleinhaus Oracle Federal Division
Mary S. Klorer Allen-Bradley
Ted Kobel Koch Process Systems Inc.
Ted Koizumi Furukawa Electric Tech.
1184
Thad T. Konopnicki U.S. Department of Energy
David Koopman Metallized Products
Arthur Z. Kovacs Rochester Institute of Tech.
Michael Kramer ACPTInc.
David Kramer McGraw-Hill Inside Energy
Gordon Kramer Hughes Aircraft Co. - EDSG
Philip Kraushaar SSC Laboratory
T. Scott Kreilick Hudson International Conductors
John M. Kreisle Team Industries
D. Krischel Interatom GmbH
Thomas Krueger Johnson Controls Inc.
Robert R. Kurth MPI International Inc.
Jozef Kuzminski SSC Laboratory
Tamio Kuzuhara Kawasaki Steel America Inc.
Andrew Kytasty General Dynamics
Aaron La Barge SSC Laboratory
David S. La Fleur MKS Instruments Inc.
Patrick La Master Sci Tech
Horace N. Lander Nippon Steel USA, Inc.
Dennis Lanning AIT
F. C. Lanvie PB/MKTeam
Robert J. Lari Vector Fields Inc.
Warren Larson Supercon, Inc.
Charles Laverick Consultant
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George A. Leakey AECL Research
Ken Lee Dow Coming Corp.
MitchLeff IISSC
Daniel Lehman U.S. Department of Energy
Phil Leibold SSC Laboratory
Thomas A. Leiser Trammell Crow Company
Louis J. Lestochi Air Products & Chemicals Inc.
Kent Leung SSC Laboratory
Eddie Leung General Dynamics
Marc Levenson CNN
Joyce Lewis U. S. Department of Energy
Melvin Lindner Brookhaven National Laboratory
Joseph Linteau Climax Specialty Metals
ArieLipski Fermilab
Thomas Looser MPI International Inc.
B. J. Lowe Ebasco Services Inc.
Jill L. Ludwigsen Nichols Research Corp.
Joseph A. Lujan Mevatec Corp.
Roy Lusk IGC Advanced Superconductor
Hylan Lyon Jr. SSC II
Charles Lyraud CEN Saclay
Jeff MacKinnon Office of Rep. Joe Barton
John Mackay SSC Laboratory
Craig Magruder Nissei Sangyo America
David Main NRC Inc.
Dub Maines Office of Rep. Joe Barton
Milan Malec Dour Metal - SCE Co.
Robert J. Malnar SSC Laboratory
John Mangino SSC Laboratory
Paul Mantsch Fermilab
Gerhard Mara Elin Energieanwendung
Bill Marancik Oxford Superconducting Tech
John H. Marburger SUNY, Stony Brook
Trent A. Marion AT&T Federal Systems
Finley W. Markley Fermilab
George Marks Huitt-Zollars Inc.
Cal Markwood Martin Marietta
Paul E. Marshall Stone & Webster Engineering Corp.
Peter G. Marston MIT/PFC
Lillian Mashburn University of Tennessee
Lyle Mason Martin Marietta
Raymond J. Massey SSC Laboratory
Giovanni Masullo Ansaldo Componenti
Roman Matherne Martin Marietta
Hamel Maurizio LabenSpA
Michael S. McAshan SSC Laboratory
William McAuley Koch Process Systems Inc.
David McBane Alconex Specialty Products
1185
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Don McCredie Von Roll Isola
Kim McDonald Chronicle of Higher Education
J. R. McDonald PB/MKTeam
John McGill SSC Laboratory
Neil McGladdery Westinghouse Electric Corp.
Glen E. McIntosh Cryogenic Tech. Services
Jim McKinnell Teledyne Wah Chang
Del McLane Ellis County
Clay McMullen Crest Products
David McWilliams Koch Process Systems Inc.
Thomas Mensah Superconductor Technology
William Merz SSC Laboratory
L. K. Mestha SSC Laboratory
Robert B. Meuser Lawrence Berkeley Laboratory
Frank Meyer MTM Cryo Tech Laboratory
James R. Miller Sheet Metal Workers
Scott Miller SSC Laboratory
John Mitchell Martin Marietta
Shinichi Miwa Kawasaki Steel America Inc
Alex Miyatake Furukawa Electric
James E. Monsees PB/MKTeam
Mike Montgomery IDMCorp.
Suhas Mookerjee Abb Technology Co.
Billy Moore Office of Rep. Jim Chapman
1186
Melissa Moore Inco Alloys International Inc.
Linda M. Moore APD Cryogenics
John J. Morena ACE Inc.
Ira Lon Morgan University of North Texas
Naoki Morimatsu Sumitomo Corp. of America
Hiroaki Morita Mitsubishi Heavy Industries Ltd.
Vicki Lynn Morris S.C.I.
Paul Morris TeledyneSC
Bill Mote Best Southwest
Stu Motew Koch Process Systems Inc.
George T. Mulholland SSCl)Fermilab
Thirumaleshwar Muliya SSC Laboratory
C. Richard Mullen Intermagnetics General Corp.
Timothy K. Muller Westinghouse Electric Corp.
Pamela J. Mundo Midlothian Chamber of Commerce
Naseem A. Munshi Composite Technology Development
Harry Murayama Nippon Steel
Michael Murphy Oxford Superconducting Tech
MichaelD.Murphy Edwards High Vacuum
Rep. John T. Myers (R)-Indiana
Yasuchika Nagai Hitachi Cable America Inc.
Masayuki Nagata Sumitomo Electric Industries Ltd.
Kazuki Nakagawa Hitachi, Ltd.
Koichi Naruse Mitsui & Co. (USA), Inc.
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Eric C. Nehrlich Fennilab
Richard C. Neunzig lIT Electron Technology Div.
Long Nguyen General Dynamics
Renee Nichols Ceramaseal
John Nicholson U. S. Department of Energy
Gene Nicholson Logicon Inc.
Tom Nicol Fennilab
Ted Niehaus SSC Laboratory
Fred Nobrega SSC Laboratory
Kiyohiko Nohara Kawasaki Steel America Inc.
J. A. Nonte SSC Laboratory
Mary Ann Novak Parsons Brinckerhoff Quade
Mark 0' Mahony Armco Advanced Materials Co.
James Ochsner DuPont Co.
R. H. Oeler Air Products & Chemicals Inc.
Fumio Ohkubo Mitsubishi Heavy Industries Ltd
Tsuguo Ohkuma Ishikawajima-Harima Heavy Industries Co., Ltd.
Takao Ohmori Ihi Research Inst.
Bob Oldefest Advanced Plastics
Kenneth O. Olsen Martin Marietta Corp.
Charles Orsak Navarro College
John L. Ostrowski Versa-tool Mfg. Inc.
KevinD. Ott Council On Superconductivity
C. E. Owen Westinghouse
Satoshi Ozaki Brookhaven National Laboratory
Peter Pan asci SSC Laboratory
John Papazian S.A.I.C.
Chris Pappas SSC Laboratory
Joseph Paradiso C.S. Draper Laboratory
Harold C. Parish CVI Inc.
Joseph Parish DuPont Co.
David Parrish Cray Research, Inc.
Jim Parrott PPB Inc.
Libby Patnovic Lockheed Missiles & Space Co.
Pamela Patrick Alcoa
Lee R. Patterson General Dynamics
Dennis Pavlik Westinghouse STC
James B. Peeples CVI Inc.
Clarence Peger Hard Chrome Plating Consultants Inc.
Arlin M. Pennington SSC Laboratory
Kurt Pennington SSC Laboratory
John Peoples Jr. Fermilab
Herb Peters Koch Process Systems Inc.
James R. Pfefferle General Physics Corp.
Steve Pidcoe General Dynamics
James G. Pierce CVI Inc.
Dan Pierson Investigations & Oversight Subcommittee
A. Pinet Thevenet -CleIjounie
1187
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Joe Pohlen Martin Marietta
Paul Polakos AT &TIBell Laboratoryoratories
TIene M. Pollack U.S. General Accounting Office
Douglas A. Pollock SSC Laboratory
William Pope Lawrence Berkeley Laboratory
Nikolaus Porschek P.E.C. Engineering
Ronald P. Pratt Weldaloy Products Co~
Peter E. Price Industrial Materials Tech.
Jean-Claude Puippe Werner Fluehmann AG
Cindy Pulver Honeywell SRC
TomPurtill Baylor Company
Hans H. Quack Sulzer Bros. Ltd.
M. G. Rao Aniga Enterprises
Deepak Raparia SSC Laboratory
Shannon Ray North Texas Commission
Paul J. Reardon SSC Laboratory
Penny Redington Ellis County Judge
R. P. Reed Composite Technology Development
M.Rehak Brookhaven National Laboratory
Anne Reifenberg Dallas Moming News
Robert Remsbottom SSC Laboratory
Keith Rensberger Cryenco Inc.
R. L. Rerig IGC
Richard L. Rhodenizer Intermagnetics General Corp
1188
Marc Rice Associated Press
Philip R. Ridley Silvex, Inc.
Hal J. Rietveld General Dynamics Corp.
Butch Riffe Long-Airdox Company
Edward C. Rinck Edward C. Rinck Assoc., Inc
Verrill Rinehart Cray Research, Inc.
Richard L. Riney Martin Marietta
EmstRingle Noell, Inc.
Michael Riordan Universities Research Association
J. F. Roach Westinghouse STC
William Roark Nichols Research Corp.
George Robertson SSC Laboratory
William Robinson SSC Laboratory
William Robotham Fermilab
Mike Rodemeyer Committee On Science, Space & Technology
Jimmy D. Rogers SSC Laboratory
Parke Rohrer Brookhaven National Laboratory
Drew Rohrer ABBlmpell
Elisabeth Root Gould Electronics
Carl H. Rosner Intermagnetics General Corp.
Jim Rossi Kyser Company
Mary Kay Rossman Unistrut Corp.
William G. Rueb MK-Ferguson Co.
Maurice M. Sabado Science Applications International Corp.
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RichardSah Maxwell Laboratories Inc.
Joan Sanchez Associated Press
Jack Sandweiss Yale University
Guy J. Scango U.S. Department of Energy
Terrence J. Scanlan AIRCO Industrial Gases
Samuel A. Scheer Westinghouse
Earl A. Scheidemantle SSC Laboratory
J. C. (Jack) Scheider Lockheed TO-AO 310
Wolfgang Schellmann Kloeckner Wilhelmsburger
D. W. Scherbarth Westinghouse STe
L. Schieber A.I.T.
W. E. Schiesser SSC Laboratory
George C. Schmauch Air Products & Chemicals Inc.
Larry Schneider SSC Laboratory
Steve Schuermann The Pb/mk Team
Thomas R. Schulte Union Carbide
E. P. Schumacher Westinghouse
William Schumacher ARMCO
H. Donald Schwartz Cabot Corporation
William Schwenterly SSCUORNL
Roy F. Schwitters SSC Laboratory
John Scudiere Oxford Superconducting Tech
Jeff Seuntjens SSC Laboratory
Howard W. Shaffer Westinghouse Electric Corp.
Sol Shapiro SSC Laboratory
Stephen Shapiro SLAC
Ken Shearer Martin Marietta
Kevin Sheehy Von Roll Isola
Bob Sheldon SSC Laboratory
Philip E. Shelley SSC Laboratory
Mike Shrubsole Murdock Inc.
Jack Shultz Tempel Steel
Derek Shuman Lawrence Berkeley Laboratory
Warren D. Siemens Martin Marietta Energy Systems
Joe Simmons Baylor Company
Jonathan Simmons SSC Laboratory
Greg Simon Chief Counsel, Subcommittee Investigations & Oversight
Charles Simpson Morrison Knudsen Corp.
Richard E. Sims Fermilab
Sharad K. Singh Westinghouse STC
George Sintchak Brookhaven National Laboratory
Edward J. Siskin sse Laboratory
John Skaritka SSC Laboratory
Don Slanina IBM
Dave Smathers Teledyne Wah Chang Albany
Robert F. Smellie SSC Laboratory
Lonnie Smith SCI
Sally Anne Smith SSC Laboratory
1189
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Christopher C. Smith Dynapower Corp.
Gerald A. Smith U. S. Department of Energy
John Smith Inco Alloys International
Greg Snitchler SSC Laboratory
John Sondericker Brookhaven National Laboratory
Philip Spampinato Grumman Space Systems
Charles L. Spangler Handy & Harman Tube Co.
Frank R. Spinos Grumman Corp.
Robert Sponsel SSC Laboratory
Vic Stack Cray Research, Inc.
Stuart Stampke SSC Laboratory
Judy Stanford AT&T Federal Systems
Michael J. Stanko Westinghouse Electric Corp.
Allen F. Stansky EMX Controls Inc.
Peter F. Stansky EMX Controls Inc.
Elizabeth Stefanski SSC Laboratory
Raymond J. Stefanski SSC Laboratory
John Stekly Intermagnetics General Corp.
Chris Stelter AT&T
Richard Stephens U.S. Department of Energy
R. Stiening SSC Laboratory
William Stokes Brookhaven National Laboratory
John (Jay) C. Stone U.S. Department of Energy
E. Jack Story SSC Laboratory
1190
Richard Strader Trammell Crow Company
Oscar Suarez AT&T
Hidehiko Sumitomo Nippon Steel Corp.
Wallace Sunderman Westinghouse PQC
John Supancic Von Roll Isola
Yoichi Suzuki Hitachi Cable Ltd.
Vito Sylvester GTE
Mike Syphers SSC Laboratory
Greg Tanimoto C. Itoh Pipe & Tube Inc.
Qaude D. Tapley KM-Kabelmetal America
David W. Taylor ARMCO Inc.
Clyde E. Taylor Lawrence Berkeley Laboratory
L. E. Temple Jr. U.S. Department of Energy
Robert K. Tener Sverdrup Corp.
Jukka Teras Cerntech Ltd.
Camilo M. Tesone N.E.I.T.D.O.
Roger E. Tetrault Babcock & Wilcox
Juhani Teuho Outokumpu Copper
Roberto Y. Than SSC Laboratory
Dave Thomas Babcock & Wilcox
Thomas J. Thompson SSC Laboratory
John C. Thorne SSC Laboratory
Tim Thurston SSC Laboratory
Kathleen Tobin CNN
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Yoshi Tokunaga Nippon Steel
John S. Toll Universities Research Assn.
Yukio Tomita Nippon Steel Corp.
John C. Tompkins SSC Laboratory
Mike Toner Atlanta Journal-Constitution
Gerry Tool SSC Laboratory
Rex E. Trekell SSC Laboratory
Herbert D. Trenham SSC Laboratory
Alvin Trivelpiece Oak Ridge National Laboratory
Bob Troendly Shaped Wire Inc.
Roman Turkevich SSC Laboratory
William C. Turner Lawrence Livermore National Laboratory
Alfred J. U nione Jason Associates Corp.
George J. Urich Everson Electric Co.
Charles Vacek U.S. Department of Energy
William A. VanDyke U. S. Department of Energy
Robert L. Van Ness SSC Laboratory
Voitto Vanhatalo Outokumpu Copper
Pierre Vedrine CEN Saclay
John T. Venard Fermilab
Robert Viola SSC Laboratory
Patrick M. Visintainer Airco
Michael Vitale Sumitomo Corporation of America
Richard J. Vopelak Babcock & Wilcox
DuaneVoy SSC Laboratory
Eric Vransky SSC Laboratory
Udo Wagner Sulzer Bros., Ltd.
Yukichi Wakita Mitsui & Co. (USA) Inc.
Ron Walker Lockheed Missiles & Space Co.
Ian J. Walker GMW Associates
Craig Walling Harnamatsu Corp
Gully Walter Tempel Steel Co.
Peter Wanderer Brookhaven National Laboratory
Robert E. Warren Hughes Aircraft Co.
Jerry M. Watson sse Laboratory
JoeWaynert Babcock & Wilcox
Charlie M. Weber Babcock & Wilcox
Marvin 1. Weber Lawrence Livermore National Laboratory
Mike Weiss MOe Vacuurn Products Corp.
Norman E. Wells SSC Laboratory
Milton Werkema Sheldahl
MarkW. West Lawrence Berkeley Laboratory
James E. West Cryogenic Consultants Inc.
1. T. West ffiM
Ed Whiting sse Laboratory
Colin Wilburn Micron Semiconductor
Joe W. Wildmon Sr. LTV Steel Corp.
Buddy Wilkinson Wachs Technical Services Inc.
1191
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Erich Willen Brookhaven National Laboratory
Bob Williamson SSC Laboratory
Lola Williamson SSC Laboratory
Mike Wilson SSC Laboratory
Kenneth F. Wilson CVIInc.
Patricia A. Wilson Hitachi America, Ltd.
Philip D. Winnie Westinghouse Electric Corp.
Michael C. Winters Fennilab
Kathryn Wirth PB/MKTeam
Lawrence J. Wolf SSC Laboratory
Doug Wolfe Hughes Aircraft Co.
Jack Woltz SSC Laboratory
M. Edward Womble C. S. Draper Laboratory, Inc.
John Womersley Florida State University
Richard Woods Los Alamos National Laboratory
Stuart Worley Hughes Aircraft Co.
Jim Worth Oxford Superconducting Tech
1192
Russell L. Wylie SSC Laboratory
XunXu SSC Laboratory
Dan Yamamura Teledyne Japan K.K.
Victor A. Yarba Institute For High Energy Physics
Minoru Yokota Sumitomo Electric Industries Ltd.
Richard Yark SSC Laboratory
Neil E. Young United Engineers & Constructors
Adnan Yucel SSC Laboratory
Jon P. Zbasnik SSC Laboratory
Bruce Zeitlin IGC Advanced Superconductor
Burt X. Zhang Gardner Cryogenics
Ren-yuan Zhu Caltech
Bruno O. Ziegler Sulzer Bros. Ltd.
Fred Zikas Parker-ICD
Ewald Zimmer-Nixdorf SSC Laboratory
George O. Zimmerman Supersolder Technologies Inc.
Art Zinszer General Dynamics
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Advanced Interconnection Technology, Inc. (AIT)
AF A Industries Air Products and Chemicals, Inc. AISA Alcatel Vacuum Products, Inc. Allied Apical Company
American Magnetics, Inc. APD Cryogenics Armco
Advanced Materials AT&T Babcock & Wilcox Balzers Best Southwest Partnership Cabot Corporation CEA Ceramaseal Climax Specialty Metals Cryenco Cryogenic Consultants, Inc. Cryolab, Inc. Cryomagnetics, Inc. CVI Incorporated Digital Corporation Douglas Engineering Company Dour Metal Dynapower Corporation Edwards High Vacuum International Furukawa Electric Technologies, Inc. General Dynamics Space Systems GMW Associates H & J Tool & Die Hard Chrome Plating Consultants, Inc. High Tech Services, Inc.
Exhibitors
Hitachi America, Ltd. Hitachi Cable America, Inc. Hughes Aircraft Company Hyspan Precision Products, Inc. IASSC IBM Engineering/Scientific Center IBM-Federal Sector Division Inland Steel Company Intennagnetics General Corporation Ishikawajima-Harima Heavy
Industries Co., Ltd. (IHI) Iten Industries Koch Process Systems, Inc. Kurt J. Lesker Company Kyser Company Lake Shore Cryotronics, Inc. LeCroy Corporation Marcel M. Barbier, Inc. Martin Marietta Astronautics Group McDonnell Douglas MDC Vacuum Products Corporation Metallized Products, Inc. Micron Semiconductor, Inc. Mitsubishi Heavy Industries, Ltd. MKS Instruments, Inc. MPI International, Inc. MTM Cryo Tech Lab National SSC Coalition New England Electric Wire Corporation Nippon Steel USA, Inc. Nor-Cal Products, Inc. North Texas Commission NRC, Inc. Oracle Federal Division
1193
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Outokumpu Copper (USA), Inc. Oxford Superconducting Technology Parker Hannifin Coporation Plainfield Stamping PPB Pressure Systems, Inc. SAES GeuerlU.S.A., Inc. Scientific Instruments, Inc. SciTech/COSI Shaped Wire, Inc.
1194
SSC Laboratory Swagelok Company Teledyne Wah Chang Albany The Chambers of Ellis County, Texas Thevenet - CleIjounie Union Carbide Industrial Gases, Inc. Vector Fields, Inc. Von Roll Isola Inc. Westinghouse Electric Corporation
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Author Index
Abrams, G ............................................ 233 Chow, I. .............................................. 1167 Adams, T ...................................... 469,497 Christopherson. D ................................. 665 Albert, G. W ....................................... 1053 Clark, D ................................................ 203 Allen, M ............................................... 801 Clay. W ............................................... 1045 Anamateros, E ...................................... 397 Collings. E. W ...................................... 365 Anderson, D. E ..................................... 793 Collins. T .............................................. 953 Anerella, M ................................... 325, 549 Connelly. J ............................................ 965 Appleton, W ......................................... 821 Coombes. R .................................. 549.615 Arden, C. S ......................................... 1151 Corpus. O ............................................. 155 Arens, J. F ............................................. 953 Costin. K .............................................. 203 Arnold, D .............................................. 271 Cottingham. J. G ........................... 325. 549 Ashkin, M ............................................... 25 Coulter. K ............................................. 575 Atlas, E. L ............................................. 953 Cox. J .................................................. I045 Aubrecht, G. J., 11 ................................. 525 Dalessandro. J ......................................... 39 Augustine, F ......................................... 953 Daly, E ................................................ 1037 Avitzur, B ............................................. 341 Davidson. M ....................................... 1077 Baggett, P ......................................... 3, 701 Dawson,1. W ............................... 937.945 Bailey, R. E. ..................... 539, 1053, 1159 Debeling. A .......................................... 457 Baillieul, T ............................................ 981 Delagi, N .................................................. 3 Bakken, 1. ..................................... 469,497 Delchamps. S ........................................ 575 Baldi, R. W ........................................... 539 Devred, A ..................................... 549. 615 Ballinger, T ........................................... 457 DiGiacomo. N ...................................... 469 Bardeen, M. G ...................................... 509 DiMarco. J ............................................ 549 Baritchi, D ............................................ 217 Dixon, K. T ......................................... 1109 Barkan, O ............................................. 953 Dormicchi. O ........................................ 225 Bever, D. L. .................................. 253, 539 Dougherty. M ..................................... 1077 Bintinger, D .......................................... 233 Easom, B .............................................. 469 Blanar, G. J ........................................... 927 Ekenberg. T .................................. 937.945 Bleadon, M ........................................... 549 Emki, C ................................................ 469 Bogan, L ............................................... 539 Erdmann. M. 1. ..................................... 713 Boroski, W. N ............................... 217,849 Ewald, K ............................................... 575 Bossert, R. C ......................................... 575 Fernandez. J .......................................... 379 Brandt. J. S ........................................... 575 Ferrell. J. R ........................................... 771 Broaddus, J. A. ..................................... 427 Fischer. R ........................................... 1125 Brown. T. G .......................................... 965 Flores. G ............................................... 469 Bush. T ................................................. 549 Fong.M ................................................ 233 Capone.D.W .• 11 ... 665.675.695, 701, 713 Franciscovich. J .................................. 1109 Carcagno. R. R ..................................... 833 Frost. D ................................................. 379 Carson. 1. A .......................................... 575 Fulton. H .............................................. 575 Chen. E ................................................. 481 Ganetis. G ..................................... 325. 549 Chen. M ................................................ 481 Ganni, V ............................................... 809
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Garber, M ..................................... 325, 549 Klafin, J ................................................ 965 Gaudreau, M. P. J ................................. 481 Kojima, Y ............................................. 615 Gennenia, C ......................................... 397 Koska, W .............................................. 575 Ghosh, A ....................................... 325, 549 Kovachev, V ......................................... 625 Gigg, G ................................................. 539 Gilbert, P.H .......................................... 421
Kozyrczak, M ....................................... 885 Kramer, G ............................................. 953
Gilbertson, A. ..................................... 1077 Krefta, M. P .............................. 11,25,601 Gistau, G ............................................... 821 Kreinbrink, K ....................................... 821 Gonczy, I. ............................................. 575 Kuchnir, M ........................................... 549 Goodzeit, C ......................... 325,549, 1125 Kuehler, J. F ......................................... 903 Gordon, M .................................... 335, 575 Kumagai, T ........................................... 127 Gottesman, S ........................................ 965 Kurimoto, K ......................................... 683 Gourlay, S. A ........................................ 575 Kuzminski, J ......................................... 549 Green, M. A .......................................... 365 Kytasty, A ................................... 283, 1053 Green, M. I. .......................................... 259 Lajczok, M ........................................... 469 Greene, A ..................................... 325, 549 Lamm, M. J .......................................... 575 Gregory, E ............................................ 355 Lansing, L ............................................. 989 Guenterberg, G ..................................... 469 Lautenschlager, A ...................... , .......... 155 Gupta, R ............................... 325, 549, 587 Lebedenko, V ....................................... 481 Gurol, H .................................................. 49 Leedy, R ................................................... 3 Haberichter, W. N ........................ 937,945 Leitch, M .............................................. 469 Haenni, D. R ......................................... 193 Leung, K. K .................................. 287, 295 Hanft, R ................................................ 549 Lipski, A ............................................... 301 Hannaford, C. R ................................... 665 Lowe, B. J ............................................. 649 Hansen, L ............................................. 259 Lucas, A. D ........................................... 903 Hara, K ................................................. 615 Lue, H. C .............................................. 193 Hassan, N ..................................... 335,575 Lue, K ................................................... 801 Hasselkus, W ........................................ 981 Ma, L. M ............................................... 139 Heger, T ................................................ 271 Maehata, K ........................................... 615 Hendrix, B. L ...................................... 1005 Mangino, 1. ........................................... 781 Herdt, B ................................................ 155 Mantsch, P ............................................ 549 Herrera, J ...................................... 325, 549 Marken, K. R ........................................ 365 Hirabayashi, H ...................................... 615 Marking, W. L ...................................... 953 Hoff, M ................................................. 245 Markley, F ............................ 155, 165,389 Hood, C ................................................ 821 Marshall, W .............................................. 3 Hosoyama, K ........................................ 615 Mason, L ............................................... 469 Hunt, S. M .................................... 193, 801 Masullo, G ............................................ 225 Hutton, D .............................................. 203 Matsumoto, K ....................................... 407 Ikeda, M ............................................... 407 Matumoto, T ......................................... 117 Jaffery, T. S .......................................... 575 Mazur, P. O .......................................... 549 Jalloh, A. R ......................................... 1037 McAshan, M. S ............................. 809, 833 Jayakumar, R. ............................... 287, 625 McConeghy, R ..................................... 203 Jernigan, J. G ........................................ 953 Meade, A ...................................... 325, 549 Johnson, C. D ....................................... 517 Mestha, L. K ......................................... 781 Johnson, D. C ....................................... 601 Meuser, R. B ......................................... 413 Johnson, L. D ..................................... 1167 Miller, J. A ........................................... 513 Juanarena, D. B .................................... 861 Montgomery, D. B ............................... 481 Kabe, A ................................................. 615 Morgan, G. H ....................... 325, 549, 587 Kahn, S ................................. 325, 549, 587 Mueller, J .............................................. 965 Kalbfleisch, G. R .................................. 903 Muneta, K ............................................. 127 Kanithi, H. C ........................................ 689 Munshi, N. A ........................................ 107 Kaplan, D. H ......................................... 903 Muratore, 1. .................................. 325, 549 Kelly, E ......................................... 325,549 Nagata, M ............................................. 683 Kerby, J ................................................ 165 Nahmias, D ........................................... 989 Keyer, W .............................................. 873 Nakai, H ............................................... 615 Khoun, C .............................................. 165 Nakatuka, J ........................................... 117 Killian, K .............................................. 469 Kimura, Y ............................................. 615
Napoleone, T ........................................ 397 Nehrlich, E ........................................... 389
King, T ................................................. 165 Nguyen, L ............................................... 49 Kinney, W ............................................ 575 Nicol, T. H ... 217,271,295,301,849,1029
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Niehaus, T ............................................ 809 Schiesser, W. E ..................................... 833 Nohara, K ............................................... 75 Schmauch, G ........................................ 989 Nonte, 1. A .......................................... 1089 Schneider, L. X ..................................... 793 Nygren, D ............................................. 953 Ogitsu, T ....................................... 549, 615 Ohmatsu, K ........................................... 683
Schoo, C. J ............................................ 849 Scully, R ............................................... 649 Seuntjens, J. M ..................... 665,675,695
Oku, G .................................................. 683 Shapiro, S. L ......................................... 953 Okumura, K ............................................ 75 Shimazu, T ........................................... 127 Oliva, A. B ........................................... 225 Shintomi, T ........................................... 615 Orrell, D ............................................... 625 Shotkin, S ............................................. 481 Orris, D ................................................. 549 Shutt, R. P .......................... 325, 549, 1059 Ozeryansky, G. M ................................ 355 Simmons, J. Y .................................... 1099 Packer, M. D ............................... 539, 1141 Sims, R. E ....................................... 57,575 Page, L ........................................ 539, 1141 Pappas, G. C ......................................... 793 Parish, R ............................................... 821
Sizemore, B .......................................... 165 Skubic, P ...................................... 903, 953 Smellie, R ............................................. 203
Parker, J. H., Jr ....................................... 25 Snitchler, G ........................................... 625 Parker, C.R.C.B .................................... 801 Sondericker, J. H .................................. 175 Pavlik, D ................................... ll, 25, 601 Spampinato, P. T .................................. 965 Peger, C. H ........................................... 375 Spieler, H .............................................. 953 Pelly, 1. D ............................................. 481 Stadtler, L ............................................. 155 Penco, R ............................................... 225 Stevens, A. E ................................ 937, 945 Pennington, A ..................................... 1131 Stockbridge, S ...................................... 335 Peoples, 1., Jr ........................................ 727 Strait, J... ............................... 287,549,575 Perot, 1. ................................................. 313 Stranberg, N ......................................... 539 Peters, R ............................................... 885 Sullivan, J ............................................. 481 Peterson, T ............................................ 549 Sumitomo, H ........................................ 117 Pidcoe, S ................................................. 39 Sumner, R ............................................. 927 Pohlen, J ....................................... 469, 497 Sumorok, K .......................................... 481 Pollock,D. A ........................ 665, 701, 713 Sumption, M. D .................................... 365 Pope, W ................................................ 233 Sunami, T ............................................. 117 Prodell, A ..................................... 325, 549 Swenson, G ........................................... 379 Puglisi, M ............................................. 549 Talaga, R. L .......................................... 945 Pusateri, J ............................................. 965 Talbert, S .............................................. 341 Radusewicz, P ...................................... 549 Tanaka, Y ............................................. 407 Randall, R ............................................. 379 Taylor, C ............................................... 549 Rao, M. G ............................................. 861 Terashima, A ........................................ 615 Reed, R. P ....................................... 91, 139 Than, R ................................................. 809 Reginato, L. L ....................................... 793 Rehak, M. L.. .............. 147, 325,549,1059
Thome, R ............................................ 1045 Thompson, P ................................ 325, 549
Richardson, R ....................................... 301 Thur, W ................................................ 245 Rifflet, J. M .......................................... 313 Tobler, R. L .......................................... 139 Robinson, S. L .......................................... 3 Tomita, Y ............................................. 127 Rogers, D ...................................... 155,389 Rogers, 1. D .......................................... 761
Tompkins, J. C. ................................ 3, 549 Toshima, K ........................................... 117
Rohrer, E. P .................................. 325, 549 Tsuda, Y ............................................... 127 Royet, 1. ................................................ 549 Sabado, M. M ....................................... 639
Tuji, M .................................................. 117 Turner,1. R ................................... 147, 549
Saito, S ................................................. 683 Unno, Y ................................................ 233 Saltmarsh, C. G ............................ 193,801 Valaris, P .............................................. 689 Sampson, W ................................. 325, 549 Sanger, P ............................................... 549
Valente, P ............................................. 225 Van Ginneken, A. ............................... 1017
Santana, J .............................................. 781 Varghese, A. P ...................................... 891 Santay, T ............................................... 989 Viola, R .............................................. 1037 Sasaki, R ................................................. 75 Wagner, U ............................................ 873 Sashida, T ............................................. 683 Wake, M ............................................... 575 Sato, S .................................................... 75 Wanderer, P .................................. 325,549 Scanlan, R ............................................. 549 Warnes, W. H ....................................... 675 Scheidemantle, A. ................................ 203 Watt, R ................................................. 233 Schermer, R .......................................... 549 Webber, R ............................................. 781
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Weidenbach, R ..................................... 233 Wright, T .............................................. 469 Wells, N. E ......................................... 1167 Yacoub, G. Y ........................................ 953 Wenzel, W ........................................... 245 Yamada, Y ............................................ 683 Wilburn, C. D ....................................... 903 Yan, X .................................................. 481 Willen, E ....................................... 325, 549 Yarba, V. A .......................................... 739 Wilson, J. M ......................................... 793 Yokota, M ............................................. 683 Winters, G. C ...................................... 1141 Yu, Y .................................................... 549 Winters, M .................................... 335,575 Zeitlin, B. A. ................................. 355, 689 Wolf, L. J ...................................... 175, 517 Zhang, B. X .......................................... 891 Wolf, Z ................................................. 549 Zhang, X ............................................... 481 Wong, J ................................................. 379 Zheng, H ............................................... 549 Wood, M. L .......................................... 903 Zhu, R ................................................... 437 Worley, S .............................................. 953 Zinszer, A ............................................... 39 Wright, M ............................................. 953
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A.C. losses analysis, in HEB dipole, 628-635
Accelerated Life Test (ALT) , 283, 285, 1053-1058, 1164-1165
Accelerated salt spray tests, 120 Accelerator Division controls
databases, 3 Accelerators
applications of, 639-647 availability allocation of,
1109-1123 electrical steel plate for, 127 high brightness, 642 high performance architecture in,
801-805 Nb3Sn conductor for, see
Niobium/tin conductors Accelerator Systems String Test
(ASST) program, 423-424, 547, 1155
helium venting model and, 833, 840-841, 842, 843, 844
MagCom and, 9 safety in, 1003, 1012 stand performance and, 670 systems engineering and, 1092,
1105-1106, 1107, 1108 Acceptance testing, 1161-1162 ACCSYS Technology Inc., 454, 644 ADC, see Automated data collection A-E/CM role and responsibilities,
421-425 AEGIS, 1020 Air core toroid muon spectrometer,
965-976 detector system in, 970-976 system configuration in, 965 toroid description, 965-970
Subject Index
Air Products and Chemicals, Inc. cryogenic container development
by, 891-898 safety issues of, 989-1003
AISI specifications, 93, 94, 105 AKSOD, 751 All-Union Institute of Ferrous
Metallurgy, 750, 751 All-Union Institute of Materials
for Electric Insulation, 750
Alsthom, 313, 314, 318 ALT, see Accelerated Life Test Aluminum
in cryogenic steels, 101 in electrical steel plate, 128,
137 in ICR, 218, 220 in LAC, 476 in warm liquid calorimeter, 458,
464 wire breakage and, 671
American Society of Mechanical Engineers (ASME) codes, 214-215, 471, 1009
AMY, 137 Anisotropic resistivity model, of
HEB dipole, 629-630 Ansaldo Componeti, 967, 968
toroid research by, 225-231 ANSI standards, 1009 ANSYS analysis, 1040
of coil elastic modulus, 166, 167, 173
of cold mass end shell, 288 of cold mass frequency response,
296 of field uniformity, 604
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ANSYS analysis (continued) of 50mm dipole vacuum vessel,
273 of ground motion, 1038, 1039 of ICR insulation system, 222,
223 of LAC, 242, 471 of support posts, 307 of thermal expansion joint, 1046,
1050, 1051 of ultra-low carbon steel, 147,
148, 152 ANSYS Mesh Tangential Load
Fixtures, 166 Anti-ovalized collars, 148, 326,
327, 554, 556, 566, 569, 570
Antiproton Source, 1022 Antiquarks, 533 Apple/Hacintosh systems, 706 Applications Productivity Tool
(APT), 889 Argon
high-Hn non-magnetic steel and, 81
in LAC, 242 in liquid ionization calorimeter,
245 safety and, 989, 990 in warm liquid forward
calorimeter, 246 Argonne National Laboratory, 984,
985 detector development by, 937-943 scintillating calorimeter
development by, 945-950 ASCII text, 201, 1170, 1171 Asea Brown Boveri (ABB), 113 ASHE, see American Society of
Mechanical Engineers Associated Research Inc., 390 ASST program, see Accelerator
Systems String Test program
ASTM method, on ultra-low carbon steel, 140
Atoms, 530-532 Austenite, 129 Automated data collection (ADC),
253-254, 256-258 Azimuthal coil modulus, 165, 166,
169, 170, 171, 173
Backstop geometry, 249 Bar code systems, 256, 257 Barium fluoride crystal
calorimeter, 437-454 crystal production for, 451 electrical noise in, 445-446,
447
1200
Barium fluoride crystal calorimeter (continued)
energy resolution in, 438, 444-445, 447-448
geometry effect in, 447 intercalibration accuracy of,
447, 448-450 physics noise in, 446-447 position resolution in, 438, 444 radiation resistance of, 438,
451-453 readout design in, 443 slow component suppression in,
442-443 time resolution in, 438, 441 UV transmittance in, 451
Barrel Calorimeter, 233-234 Baskets, of electromagnetic
calorimeter, 397, 402, 403, 404, 405, 406
Battelle Memorial Institute, ferromagnetic research at, 365-372
Beam diagnostics system, for UNK, 742, 747-748
Beam monitors in HERA quadrupole, 315, 316,
321 in spool piece, 205-206
Beam tubes bellows of, 1062, 1070-1076 CDM producibility and, 42 field uniformity and, 609 for 50mm dipole vacuum vessel,
272 ground motion and, 1039 in HERA quadrupoles, 315 high-Mn non-magnetic steel in,
84 non-magnetic stainless steel in,
117, 124 in spool piece, 203, 204 systems engineering in,
1104-1105 Beijing Glass Research Institute
(BGRI), 451 Bellows, 1059-1076, 1163, 1164
beam tube, 1062, 1070-1076 Euler buckling mode in,
1060-1062, 1065 large, 1060, 1063-1070, 1076 single-phase, 571 small, 1060, 1070, 1076 spring-supported, 1063
Berkeley SVXD readout chips, 903, 905, 907, 922
BGO crystals barium fluoride compared with,
441, 444, 446, 448-450, 453
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BGO crystals (continued) carbon fiber in, 397-406
Billets, 379-387 alloy source comparisons in, 673 critical current testing of, 721 electrical performance of,
668-669 for HEB, 690, 696 mechanical performance of,
665-668 quality assurance for, 702, 708 unit weight of, 683-686 for UNK, 751 wire breakage and, 341, 671-673
Bi-metal wires, 341, 342, 348, 349, 352
Bismaleimides, 113 Black start performance, of SMES
ETM, 658, 660 BNCT (Boron Neutron Capture
Therapy), 644 Bonneville Power Administration
(BPA). 649 Boron Neutron Capture Therapy
(BNCT), 644 Bosons, 532. 533, 733, 735 BOSOR4 analysis. of LAC, 471 Box plots, 706-707 Brittle fracture failure, 152-153 Bronze process for conductors.
355-356. 358 Brookhaven National Laboratory
(BNL). 73. 246, 302, 454, 646
bellows development by, 1059-1076
COM program of. 549-572 cold mass support testing by,
175-188 detector collaborations at,
730-731 50mm dipole development by,
587-599 5-cm dipole development by, 616 insulation manufacture by.
389-395 MagCom and, 5. 6 quality assurance program of.
710 reliability program of, 1152 strain gauge development by.
1077. 1078. 1080. 1081. 1082, 1083, 1085
strand development by, 669, 670 technology transfer
considerations of. 1125. 1126. 1127
ultra-low carbon steel manufacture by, 147-153
B-stage epoxy insulation. 615. 617
Bullet gauge assemblies. 558. 571 Bump magnets. 744. 745
Cable eddy currents, 625. 631-632, 635
Cable mapping, 713, 721 Cables, 802, see also Conductors
critical current degradations and, 675-681
field uniformity and. 608 for 50mm dipole. 588. 597, 599 for 5-cm dipole, 617. 620-621 for HERA quadrupole. 318. 323 for LAC. 236. 242 MagCom and, 6. 8 Nb, 704 NbTi. see Niobium/titanium cable quality assurance for, 701-711,
see also Quality assurance
strand performance and. 670 stress relaxation in, 160-162 technology transfer and. 1127.
1128 for toroids, 227 for UNK, 748. 753, 754, 755
Cabling machines. 709-710, 754, 755
CAD, see Computer-aided design Caltech, 454 CAMAC system. 263, 789. 909. 927.
928. 936. 1057 Cancer therapy. 639-640. 641. 642,
643, 645 Canvas program. 1171, 1172, 1173 Carbide precipitates. 117. 118,
125 Carbon
in BGO crystals, 397-406 in cryogenic steels. 98. 100 in electrical steel plate, 128.
132. 133, 137 in magnetic field measurement
system, 266, 267. 268 in non-magnetic stainless steel.
117, 118-119. 120, 123. 125
in ultra-low carbon steel. 140, 147
Carbon/manganese alloys. 140 Carl D. Perkins Vocational
Education Act, 518 Carnot work requirements, in
cryogenic systems. 814-815. 816, 817
CASIM. 1017. 1018, 1019. 1020. 1021. 1022, 1024
CCC. see Centrifugal cryogenic compressors
CCL, see Coupled cell Linac
1201
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CDM. see Collider dipole magnet Celazole. 311 Central Wisconsin Development
Corporation. 650 Centrifugal cryogenic compressors
(CCC). 821. 826. 827. 828-830
CERN. 114. 438. 454 accelerator development by.
801-805 detector collaborations at. 733.
734 education programs of. 527. 535 shielding calculations by. 1017.
1018. 1022 Charpy impact tests of high-Mn
non-magnetic steel. 75. 76. 77. 78. 79. 80. 84. 87
of non-magnetic stainless steel. 118. 120
Chelyabinsk Integrated Iron-and-Steel Works, 750
Chicago Bridge & Iron, 650 Chromium, 93, 100, 121, 132 Chromium carbides, 81, 87, 97 Chromium/niobium/manganese alloys,
122 Chromium plating solution, 375-377 Clean Sweep program, 514 Closed form solutions
for buckling criteria, 277 for field uniformity. 601, 604 for magnetic field calculations,
11, 12-13, 20, 25-26 Cobalt-60, 940 Coil curing, 559
in 50mm dipole, 576 in 5-cm dipole, 620-621 SPC in, 255 testing of, 1160, 1165 tooling/process improvements for,
57-74 error analysis and, 60-70 process parameters in, 70-74
Coils, 551, 552, 562-563, 564, 1128, see also Coil curing; Coil winding
ADC and, 256 for air core toroid muon
spectrometer, 965 ALT program and, 1057 assembly of, 558-562 azimuthal modulus of, 165, 166,
169, 170, 171, 173 cold mass end shell and, 287,
288, 291, 293 cold mass frequency response and,
295, 296, 297, 298 compression comparisons of,
566-568
1202
Coils (continued) elastic modulus of, 63, 165-173 field uniformity and, 606-608,
609, 612 for 50mm dipole, 578, 580, 581,
585, 587, 597, 598-599 for 5-cm dipole, 618-620 Goodzeit gauges and, 1077, 1085 ground motion and, 1039 for HEB dipole, 626, 627,
635-636 for HERA quadrupole, 313, 317,
318, 319, 320 MagCom and, 6 magnetic field and, 13, 16, 18,
22, 26-28, 29-30, 31, 32-33, 36, 261, 269
manufacturing tolerances and, 50, 52
particulate debris and, 389-395 prestress performance and, 325,
326, 327-328, 330, 332 quality assurance for, 702 quenches and, 834, 837, 838, 843 radial, 261, 269 radial modulus of, 165, 166,
169-170, 172, 173 short, 60, 64, 66, 68, 69 for SMES-ETM, 651, 652-656, 657,
658, 659 stress relaxation in, 155-163 tangential, 261, 269 testing of, 1160, 1163,
1165-1166 thermal expansion joint and,
1047 for toroids, 226, 228, 230, 231 for UNK, 748, 749, 751 for warm liquid calorimeter, 458
Coil winding, 558, 1160, 1165 in air core toroid muon
spectrometer, 967-968 in 50mm dipole, 576 in 5-cm dipole, 616, 620-621 manufacturing tolerances and, 49,
55 shuttle-type, 558 SPC in, 255
Cold mass, 550, 836, 838 CDM producibility and, 41-44, 45 end shell engineering design
study of, 287-294 for 50mm dipole, 271, 272, 273,
274, 855-856, 857, 1035 frequency response study of,
295-299 ground motion and, 1037, 1039,
1041 supports for, see Support posts systems engineering for, 1106
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Cold mass (continued) technology transfer and. 1127.
1128. 1130 testing of. 1163. 1166
Collars. 550. 551. 552. 554. 556. 562-570
ALT program and. 1057 anti-ovalized. see Anti-ovalized
collars CD! producibility and. 42 cold mass end shell and. 287 deflection comparisons in.
568-570 field uniformity and. 601. 609 for 50mm dipole. 579. 584 for 5-cm dipole. 616. 617. 621.
622 Goodzeit gauges and. 1077-1078 for HERA quadrupole. 320. 323 high-Hn non-magnetic steel in.
76. 84. 85. 86. 87 manufacturing tolerances and. 49.
50 non-magnetic stainless steel in.
117. 124 pole-shim optimization in.
562-563 prestress performance and. 326.
327. 330 quenches and. 836. 837. 838. 843 round. 554. 556. 566. 568 ultra-low carbon steel in.
148-150. 153 for UNK. 748. 750. 751. 755
Collider dipole magnet (CDH). 539-547. 549-572. see also individual componants of; specific types
ADC in. 253-254. 256-258 ALT program for. 1053-1058 assembly of. 558-571 baseline design of. 550-553 factory-line flow in. 543-545 ferromagnetic material effect on.
365-372 field uniformity requirements of.
see Field uniformity ground motion response of.
1037-1043 HEB dipole compared with. 625.
626. 628. 635 high-mn non-magnetic steel in.
see High-manganese nonmagnetic steel
industrial skills required for. 541-543
instrumentation of. 557-558 Leader-Follower program in. 539.
545-547
Collider dipole magnet (CDH) (continued) magnetic field measurement
systems for. see Cryogenic magnetic field measurement system; Three-dimensional magnetic field; Twodimensional magnetic field
manufacturing tolerance effect on. 49-55
prestress performance of. 325-332
producibility of. 39-47 project organization for.
540-541 proximity effect in. 410 reliability development in.
283-285 schedule for. 539-540 SPC in. 55. 253-255. 258 in spool piece. 203. 205 system approach to. 1132. 1135.
1137 team-based organization for.
1141-1148 technology transfer
considerations in. 1125-1130
test program for. 1159-1166 variants on baseline design.
554-557 Collider quadrupole magnet (CQH)
magnetic field calculations for. 11
manufacturing tolerance effect on. 51
in spool piece. 203. 205 system approach to. 1135. 1137
Collider synchrotrons. 761. 767-768. 769
Colorado Alliance for Science. 513. 514
Columbia University. 482 Composite Technology Development.
Inc .• insulator research at. 107-114
Compressors. 815-816. 822. 879. see also Centrifugal cryogenic compressors
Computed tomography (CT). 643 Computer-aided design (CAD). 542
DTASS and. 1168. 1169. 1170 of warm liquid calorimeter. 459
Computer-integrated design. 431 Computers. see also specific
systems for global RF feedback system.
789-791
1203
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Computers (continued) in magnetic field measurement
system, 263 in strain gauge calibration,
339-340 Conceptual Design plan, 517-518 Concurrent engineering, 541 Conductor block placement errors,
49, 50, 51, 52-55 Conductors, 379-387, see also
Cables; Wires for air core toroid muon
spectrometer. 968 field uniformity and, 601 for HEB, 690-693, 695-697 inner, 380-382, 383, 387 Nb3Sn, see Niobium/tin conductor NbTi, 355, 356, 379, 385, 387 NbTiTa, 355 outer, 383, 384 for RHIC, 383, 384, 385, 387 for SMES-ETM, 652, 653, 657, 659
Cone geometry, 249 Consequences Analysis, 1010 Construction Industry Institute
(CII), 427-434 Contemporary Physics Education
Project (CPEP), 525-535 Continuous Electron Beam
Accelerator Facility (CEBAF), 397, 868, 869, 936
cryogenic system of, 821-831 Convair, 540 Copper, 385
in cryogenic steels, 101 in electrical steel plate, 132 in HEB filament, 690, 692, 693,
696 in ICR, 220 in Nb3Sn conductors, 356-357,
360, 362 in NbTi wire, 341, 342, 350, 352 in nonmagnetic stainless steel,
123 in spool piece, 209
Copper/manganese alloys, 365, 409, 410, 411, 412, 692, 697
Copper/nickel alloys, 690 Copper/niobium wire, 409, 410 Copper:superconductor ratio, 352,
380, 383, 553-554 critical current degradation and,
676, 679 field uniformity and, 614 in 50mm dipole, 595, 599 in 5-cm dipole, 617 in HEB filament, 692, 696 quality assurance and, 707 quenches and, 838
1204
Copper: superconductor ratio (continued) in RHIC, 384 strand performance and, 668, 669,
673 Copper/titanium alloys, 385 Copper wire, 376, 409, 410, 411 Core tin process, 356-360, 361,
364 Correction magnets
in HERA, 314, 315, 316, 321, 322 in spool piece, 205-206 in UNK, 748
Corrosion resistance, 120-121, 125 Coupled cell Linac (CeL) , 771, 774,
775, 776, 777 COM, see Co11ider quadrupole
magnet Creep, 113, 156, 157, 158, 181,
304, 325, 407, 412, 505 Critical current, 683
degradation in, 675-681 deviation of, 686-688 in HEB filament, 689, 696, 697 strand performance and, 668, 674 systematic error in testing of,
713-723 in UNK filament, 751
Cross-section, 576, 587-599 field harmonics of, 589-590, 593,
594, 596 quenches and, 587, 593-596 random errors in, 587, 596-597
Cryogenic magnetic field measurement system, 259-270
calibration in, 261-262 cryogenics for, 262, 264 DAQ system of, 263-264 mechanical analysis of, 264-269 probe of, 261, 264 proposal phases of, 260-261 specifications and requirements
for, 260 Cryogenic material safety,
989-1003 in confined areas, 997-1002 containers for, 891-898 hazard recognition, elimination
and control in, 995-997 potential hazard identification
in, 991-992 storage, handling, transport
systems in, 992-995 Cryogenic steels, 91-105
physical properties of, 98-101 strength of, 93-95 toughness of, 91, 95-97, 102,
105 welding of, 97-98
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Cryogenic systems, 802, 809-819, see also specific components of
basic features of, 809-810 for CEBAF, 821-831 control system design in,
885-890 field bus and, 194 for magnetic field measurement,
262, 264 for MTL, 873-883 plant configuration selection in,
816-817 plant configurations of, 813-815 redundancy in, 809, 810-813, 816 of SHES-ETM, 652 of spool piece, 203, 205, 210 systems engineering in, 1101 technology transfer and,
1127-1128 toroids and, 229-230 for UNK, 755-756
Cryogenic temperature, see also specific cryogens
ICR at, 220 insulation and, 107, 108, 113 nonmagnetic stainless steel at,
117, 118, 120, 123, 124 strain gauge calibration at,
335-340 ultra-low carbon steel at, 140
Cryogenmash, Inc., 755 CryoRad, 311 Cryostats, 809
field uniformity and, 609 for 50mm dipole, 1029-1036, see
also Vacuum vessel, for 50mm dipole
ground motion and, 1040 for HERA, 314, 316, 317, 318,
320-321, 323 for LAC, 233, 234, 236, 239, 243,
467 redundancy in, 812 in spool piece, 203, 205 technology transfer and, 1127,
1130 for toroids, 231
CSMA/CD networks, 802 CT (Computed tomography), 643 Curing, radiation resistance and,
109-113, see also Coil curing
Cyclotrons, 643, 645, 646 Cylinder geometry, 249
Dake Corporation, 390 Data acquisition (DAQ)
automated, 253-254, 256-258
Data acquisition (DAQ) (continued) in magnetic field measurement
system, 263-264 from scintillating calorimeter,
945-950 from silicon microstrip detector,
910 dBASE III PLUS, 705, 711 DC0201 magnet, 550, 561, 570 DC0204 magnet, 550, 565, 570 DD0026 magnet, 550 DD0027 magnet, 550, 558, 567, 571 DD0028 magnet, 550, 558, 567 Decapoles
ferromagnetic material effects on, 365-372
field uniformity and, 604 magnetic field calculations and,
16 in spool piece, 205 in UNK, 743
DECnet, 4, 317 DEC/VAX systems, 706 Defense Nuclear Agency (DNA), 649,
650 Deflection analysis, 271, 273, 275,
276, 277, 568-570 Deneb, 543 Department of Defense (DOD)
SMES-ETM program and, 660 system safety and, 1006 systems engineering and, 1089,
1090, 1091, 1096, 1097 Department of Energy (DOE), 281,
296, 421, 434, 539, 646, 1137
detector collaborations and, 735 education programs of, 509-512,
535 environmental issues and,
981-987 SMES-ETM program and, 649, 650,
660 system safety and, 1006, 1007,
1008, 1009, 1010 systems engineering and, 1089,
1090, 1091, 1092 Department of Transportation (DOT),
898, 992 DESY, 175, 733, 783, 1162
HERA quadrupole development by, 313-324
Detector collaborations, 727-737 Detectors, see also specific types
for LAC, 234 rad-hard electronics study for,
937-943 Development testing, 1163
1205
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Digital Subtraction Angiography (DSA) , 643
Dipoles, 802 bellows and, 1063, 1065 for Collider, see Collider dipole
magnet 50mm aperature, see 50mm dipole half cell, 1049 for HEB, see High Energy Booster
dipole for HERA, 315, 316, 321, 322 high field, 355 systems engineering in, 1100,
1102 for UNK, 743, 744, 748, 749, 751
Document tracking and storage system (DTASS), 1167-1176
architecture of, 1168-1169 format issues in, 1170-1172 requirements for, 1168 system use, 1169-1170
Double-sided direct coupled silicon microstrip detectors, see Silicon micros trip detectors
Drift Tube Linac (DTL) , 771, 774-775, 776
DSA (Digital Subtraction Angiography), 643
DSA321 magnet, 576-581, 585 DSA322 magnet, 576, 584 DSA323 magnet, 576, 585 DSHIP magnet, 1038 DSX20ljW6733 cross-section,
587-599, see also Crosssection
DSX201 yoke, 147-153 DTASS, see Document tracking and
storage system DTL, see Drift Tube Linac Durability Analysis, 1152,
1153-1155
EBASCO Service Incorporated, SMES-ETH program of, 649-660
EDM tooling, 64, 66, 68, 576 Efremov Institute, 743, 745, 748 EG&G Energy Measurements, Inc.,
calorimeter design by, 457-468
80K thermal shield, 217, 220, 851-852, 853, 856, 857, 859, 1031, 1032, 1036, 1160
EIS, see Environmental Impact Statement
Elastic modulus, 63, 91, 165-173, 328
Electrical steel plate, 127-137 chemical compositions of, 128 grain size effect on, 128-129,
131, 132, 137 magnetic improvement mechanisms
and, 131-132 Electromagnetic calorimeters, 936
carbon fiber BGO in, 397-406 Electromagnetic (EM) modules
in LAC, 236, 473 in SPACAL, 501-502 in warm liquid calorimeter, 464
Electrons, 108, 313, 471, 530, 640, 643
Electron shielding, 1017, 1020, 1021
Electroplated wire, 375-377 Electrosila plant, 751 Electroslag remelting, 92, 96 El Paso Electric, 650 EMAS code, 49 EMPACT detector, 225-231 Endcap Calorimeter, 233-234 End plates, 550, 551, 553, 571
CDM producibility and, 42 cold mass frequency response and,
296 for 50mm dipole, 576 for HERA quadrupole, 319 technology transfer and, 1128 thermal expansion joints and,
1046 Environment, Safety and Health
Office, 1005, 1008, 1009, 1012
Environmental impacts, 981-987 Environmental Impact Statement
(EIS), 981, 982-983, 985, 986
supplemental, 983-985, 986 Epoxy-fiberglass insulation, 554
for 50mm dipole, 576 particulate debris on, 389, 390,
391, 394, 395 stress relaxation in, 155, 162 for UNK, 749-750
Error harmonics, 261 ESRF, 397 ETHERNET system, 263, 802, 1173 Euler buckling mode, 1060-1062,
1065 EURATOM, 828 Eutectic module, of SPACAL, 497,
500-501 Explosive detection systems, 639,
643
Electrical Power Research Institute Failure Modes Effects Analysis, (EPRI), 649 283
1206
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Failure Modes Effects and Criticality Analysis (FMECA) , 1010, 1152, 1153, 1154, 1155, 1158
Failure Modes Modeling, 283-285 Failure Reporting Analysis and
Corrective Action System (FRACAS), 6, 1152, 1156-1158
Fanning friction, 839 FASTBUS, 927, 928, 936 Fast Neutron Therapy, 644 Fatigue
in high-Mn non magnetic steel, 75, 76-79, 87
in ultra-low carbon steel, 139, 141, 142, 145, 148
Fault tree analysis, 283, 999, 1010
FEA, see Finite element analysis Feints Co., 751 Fermi National Accelerator
Laboratory (FNAL), 5, 176, 245, 454, 539, 547, 550, 616, 956, 1059, 1070
accelerator development by, 643, 646, 1109-1123
coil tooling/process of, 57, 68, 73
cold mass end shell study of, 287-294
cold mass frequency response study of, 295-299
conductor development by, 385-387
detector collaborations at, 731-732, 733, 734, 735
education programs of, 509-512, 527, 528
elastic modulus testing by, 165-173
50mm dipole development by, 271-282, 575-585, 587, 588, 591, 1029-1036
ground motion studies of, 1038 helium venting model and, 833,
835, 840, 841-845, 846 ICR project of, 217-223 insulation manufacture by,
389-395 MLI system of, 849-859 quality assurance program of,
710 reliability program of, 1152 RF system development by, 764,
765, 783 shielding calculations by,
1017-1024 strain gauge development by,
1077-1085
Fermi National Accelerator Laboratory (FNAL) (continued) stress relaxation testing by,
155-163 support post development by,
301-311 technology transfer
considerations of, 1125, 1126, 1127, 1128
Fermions, 533 Ferrite, 97, 98, 101, see also
Iron in cryogenic steels, 91 in electrical steel plate,
128-129, 131 in ultra-low carbon steel, 139
Ferromagnetic hysteresis, 12 Ferromagnetic materials
CDM effects of, 365-372 in REB dipole, 633
Ferromagnetic saturation, 11, 12, 26
FIDAP analysis, of LAC, 478 Field bus, 193-202
design requirements in, 194-195 system design in, 195-199 system implementation in,
199-201 Field harmonics
in 50mm dipole, 589-590, 593, 594, 596
in REB dipole, 625 systems engineering and, 1103 in thermal expansion joint, 1050
Field uniformity, 601-614 magnetization effects in, 606,
608-609 50mm dipole, 9, 575-585, see also
specific magnet designs cross-section of, see Cross-
section cryostat design for, 1029-1036 design features of, 576 MLI for, 849-859 vacuum vessel for, see Vacuum
vessel, for 50 mm dipole Filaments
critical current degradations and, 675-681
for REB, 689-693, 695-699 Finite element analysis (FEA)
of air core toroid muon spectrometer, 970, 973, 975-976
of BGO crystals, 406 of cold mass end shell, 288-290,
291 of cold mass frequency response,
295, 296
1207
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Finite element analysis (FEA) (continued) of 50mm dipole vacuum vessel,
273, 275-276, 282 of ground motion, 1040, 1041,
1042 of HEB dipole, 628, 633 of LAC, 478 in magnetic field calculations,
11, 12, 13, 14, 16, 18-20
of manufacturing tolerances, 49, 51
of support posts, 307 three-dimensional, see Three
dimensional finite element analysis
two-dimensional, see Two-dimensional finite element analysis
5-cm dipole, 615-624 coil curing in, 620-621 coil end in, 618-620 coil winding in, 616, 620-621 collars of, 616, 617, 621, 622 design of, 616-618 test results on, 622 yokes of, 616, 618, 621
FLUKA program, 1017 Flux creep, 407, 412 FMECA, see Failure Modes Effects
and Criticality Analysis Formal Qualification Test, 1163,
1166 FORTH, 201 Fourier coefficients, in magnetic
field calculations, 25, 27-28, 34
FRACAS, see Failure Reporting Analysis and Corrective Action System
Fracture in cold mass supports, 186 cryogenic steels and, 91, 92,
103 ultra-low carbon steel and, 139,
140-141, 142, 143, 144, 145, 148
Free radicals, 1050 Freon 22, 490 Frequency response study, 295-299 FTAte TRAinSCC, 935-936 Furukawa, 616
Gamma radiation clinical applications of, 639,
643 insulation and, 108, 109 integrated cryogenic sensors and,
869, 870
1208
Gamma radiation (continued) thermal expansion joint and,
1045, 1050 Gauss-Legendre integration scheme,
13, 30 GBFEL (Ground based free electron
laser), 650 GEANT simulation, 446, 447, 448 General Dynamics, Space System
Division (GDSSD), 967 ALT program of, 1053-1058 CDM producibility and, 39-47 CDM program of, 539-547 CDM reliability development by,
283-285 CDM test program of, 1159-1166 manufacturing tolerance research
by, 49-55 SSP & AUD development by,
253-258 team-based organization in,
1141-1148 General Dynamic Thermal Analyzer,
222, 223 Global Positioning System (GPS),
424 Global RF feedback systems,
781-792 computers in, 789-791 description of, 782-784 synchronization in, 783-784, 785,
788, 792 Gold plating of wire, 375 Goodzeit gauges, 1077-1085 GPS (Global Positioning System),
424 Ground based free electron laser
(GBFEL), 650 Ground motion, 1037-1043 Grumman Corporation, spectrometer
development by, 965-976 Guyan reduction, in ground motion
analysis, 1040
Hadron calorimeter, 482 Hadronic modules
in LAC, 234, 236, 473 of SPACAL, 501-502 in warm liquid calorimeter, 458,
459, 462, 464 Hadrons, 532, 533 Hadron shielding, 1017, 1018-1019,
1020, 1021, 1022 Hagedorn-Ranft model, in shielding
calculations, 1018 Half cell
helium venting model for, see Helium venting model
systems engineering and, 1100, 1105
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Half cell (continued) thermal expansion joint and.
1049 Half-coils. 616. 751. 752 Half-yokes. 752 Hall-Petch relation. 95 Hard Chrome Plating Consultants
Inc .• wire development by. 375-377
Hazard analyses. 1010 Hazard classifications. 1011 Hazard tracking. 1012-1013 Heavy ions. 639. 643 Helium. see Liquid helium Helium venting model. 833-846 ASS~ and. 833. 840-841. 842. 843.
844 HERA. 175. 218. 407 HERA dipole. 315. 316. 321. 322 HERA quadrupole. 313-324
database organization in. 317 fabrication process and planning
in. 316-317 main characteristics of. 315 test results on. 318-322
Higgs particles. 438. 439. 440 High brightness accelerators. 642 High Energy Booster (HEB). 701.
1110. 1112. 1121. 1152 filament for. 689-693. 695-699 kicker magnets for. 794. 799 RF system for. 761. 762. 765.
766-767 global feedback in. 785
system approach to. 1135. 1137 systems engineering in. 1091
High Energy Booster (HEB) dipole. 625-636
A.C. losses analysis in. 628-635 High field dipoles. 355 High-nanganese non-magnetic steel.
75-87 fatigue in. 75. 76-79. 87 sensitizing of. 75. 79-81. 87 toughness of. 75. 76. 87 welding of. 75. 76. 81-84. 87
High-nitrogen stainless steel. 76. 79. 81. 83. 84. 85. 86. 87
High resistive matrix wire. 409-410
Hitachi. 367. 368 Horizontal errors. in coil size.
60. 67. 69. 70 Horizontal yokes. 290. 588. 591.
592. 594. 618 Hughes Aircraft Company. detector
development by. 953-962 Human error analysis. 1011 Human factors engineering. 1005.
1011
Hybrid geometry. 249. 250
IBM education programs. 535 IBM systems. 308. 443. 703. 705.
706. 935 ICD. see Interface Control
Document Iceberg effect. 39. 40 ICR. see Interconnect region ICWG. see Interface Control Working
Group I-DEAS Model Solver. 471 IGC Advanced Superconductors. Inc .•
367 HEB filament development by.
689-693 Nb3Sn conductor development by.
355-364 IGES format. 1170 Injection molded composite (IMC)
material. 178. 180-181. 184-185. 186. 187. 302. 303. 304. 305. 306. 309. 310. 311
In-process testing. 1160-1161 Institute for High Energy Physics.
UNK project at. 739-757 Institute of Electric Welding. 750 Institute of High-Quality Steels.
750 Institute of Inorganic Materials.
748 Institute of Metallurgic
Technology. 751 Institute of Pulsed Technology.
748 Insulation
B-stage epoxy. 615. 617 epoxy-fiberglass. see Epoxy
fiberglass insulation Kapton. see Kapton insulation multilayer. see Multilayer
insulation radiation damage and. 107-114 for UNK. 748. 749-750
Integrated cryogenic sensors. 861-871
pressure sensors in. 863-868 temperature sensors in. 862-863.
868 Integrity Methodology. 1152-1153 Interatom-KWU. 313. 314. 318 Interconnect region (ICR). 217-223 Interface Control Document (ICD).
1099. 1102-1103. 1107 1108
Standard Arc Half-Cell. see Standard Arc Half-Cell Interface Control Document
1209
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Interface Control Document (ICD) (continued) system-level, 1100, 1106
Interface Control Working Group (ICWG), 1092, 1100, 1107, 1108
International Commission on Physics Education, 527
Ionizing radiation, 938, 940, 941, 942
Iron~ 123, 125, 140, 366, see also Ferrite
Iron/chromium/manganese alloys, 92, 93, 95, 101
Iron/chromium/nickel alloys, 92, 93, 94, 95, 98, 99, 101
Irwin's approximation, 141 Isotope production, 639, 643, 644 ITALCOMPOSTI, calorimeter
development by, 397-406 Iterative design process, 1139
Japanese Atomic Energy Research Institute (JAERI), 92
Jettanget, 397 J-integral tests, of cryogenic
steels, 95-96
Kapton insulation, 70, 73, 552, 561, 562, 568
creep in, 156, 157, 158 for 50mm dipole, 576, 579 for 5-cm dipole, 615, 617, 621 high-Hn non-magnetic steel and,
84 particulate debris on, 389-395 quenches and, 838 stress relaxation in, 155-160,
162, 163 for UNK, 749-750 for warm liquid forward
calorimeter, 251 Kawasaki 90 steel, 148, 150, 153 Kawasaki Steel Corporation, high-mn
non-magnetic steel of, 75-87
KEK-National Laboratory for High Energy Physics, 482
5-cm dipole development by, 615-624
LAC development by, 233-244 Kevlar 49/epoxy, 269 Keys, 11, 14, 15, 16, 17, 602
CDM producibility and, 42, 44 for 50mm dipole, 579, 584 for 5-cm dipole, 621 magnetic field and, 15, 20, 21,
22, 23, 26 squared, 565 tapered, 564-566, 569
1210
Kharkov Electric and Mechanical Plant (KEMP), 744
Kicker magnets for synchrotrons, 793-799 for UNK, 745
Kim-Anderson model, of HEB dipole, 629
Koch Process Systems (KPS), cryogenic systems of, 885-890
Ladon, 397 L'Air Liquide, 826, 827, 828, 829 Lake Shore Cryotronics, 869 Laminated modules, of SPACAL, 497,
498 LAN control systems, 195, 196 Land Systems, 540 LANL, 764 Lanthanum, 442 Laplace's equation, 21, 27, 604,
605 Large Coil Program (LCP), 253 Large Coil Test Facility, 967 Large Hadron Collider (LHC), 355,
689, 935, 1022 barium fluoride crystal
calorimeter for, 438, 439, 440, 447
Lauritsen Laboratory, calorimeter development by, 437-454
Lawrence Berkeley Laboratory (18L), 5, 550, 710, 1152
education programs of, 535 ferromagnetic material research
at, 365-372 LAC development by, 233-244 magnetic field measurement system
at, 259-270 pixel detector development by,
953-962 warm liquid forward calorimeter
development by, 245-252 Lawrence Livermore National
Laboratory, magnet development at, 793-799
Lead contamination, 453, 454 Lead creep, 505 Leader-Follower program, 539,
545-547 LEB, see Low Energy Booster LeCroy Corporation, TDC development
by, 927-936 LEP accelerator, 355, 804, 936 Leptons, 437, 438-440, 532, 533 L* experiment
barium fluoride crystal calorimeter for, see Barium fluoride crystal calorimeter
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L* experiment (continued) liquid xenon detector for,
492-493, 494, 495 LHC, see Large Hadron Collider LINAC, 424, 642, 643, 644, 1110,
1112 RF system for, 761, 771-779
global feedback in, 781, 784, 785
systems engineering in, 1091 Line-to-line fit concept, 551, 570 LINK project, 515 Liquid argon calorimeter (LAC),
469-479 cables for, 236, 242 cold feedthru plate of, 236, 240,
242 cooling in, 239, 242-243 cryogenic implications in,
236-239 cryostat of, see under Cryostats DAQ from, 950 detector description of, 234 EM modules of, 236, 473 endcap wall trade study of,
467-476 energy resolution in, 470, 471,
473, 474, 475, 479 hadronic modules of, 234, 236,
473 main transfer line of, 234, 236,
238, 242-243 module description of, 236 radiation and, 937 SCFT for, 233-244 signal cable readout for,
236-239 thermal modeling of, 478 vessel external interface of,
236 Liquid helium, 204, 809-810
in CEBAF system, 828 cold mass supports and, 184, 185 collars and, 552 containers for, 891, 894, 895,
898 in critical current testing, 714 HERA quadrupole and, 318 high-Mn non-magnetic steel and,
76 in magnetic field measurement
system, 264, 268 prestress performance and, 325 safety in handling, see Cryogenic
materiels, safety and in strain gauge calibration, 335,
337, 340 ultra-low carbon steel and, 139,
147 Liquid hydrogen, 898
Liquid ionization calorimetry, 245 Liquid nitrogen
air core toroid muon spectrometer and, 970
cold mass supports and, 183 liquid xenon detector and, 483,
484, 490, 491, 493 MTL cryogenics and, 871, 881 safety in handling, see Cryogenic
material safety UNK cryogenics and, 755
Liquid xenon detector, 481-495 amplifiers of, 484, 490 conical 7 cell x 7 cell size,
482, 488-490 L*, 492-493, 494, 495 one-liter size, 482, 483 photodiodes of, 481, 482, 483,
484, 486, 490, 491, 492, 494
purification and storage of, 491 sub-liter size, 482, 483 three-liter size, 484
Livingston Plot, 646 Lockheed Corporation, 1090 Lorna Linda University Medical
Center (LLUMC), 643, 646 Lorentz forces, 552, 570
ALT program and, 1057 on cold mass end shell, 287, 288 cold mass frequency response and,
296 on 50mm dipole, 581, 587, 591,
597, 598 on S-cm dipole, 622 magnetic field and, 25 prestress performance and, 325,
327, 328, 329 on SMES-ETM, 651, 653, 655, 656,
657 on ultra-low carbon steel, 150 on yoke, 553
LOTUS program, 709 Low beta quadrupoles, 355 Low Energy Booster (LEB) , 1110,
1112 kicker magnets for, 794, 798,
799 RF system for, 761, 762-763, 764,
765, 771, 775, 777 global feedback in, see Global
RF feedback system systems engineering in, 1091
Low energy neutrons, 1017, 1018 LSODES, 833
Macintosh systems, 706, 910, 1169, 1170, 1171, 1172, 1175
Madison Gas and Electric utility system, 649
1211
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MagCom, 3-9, 701, 703-705, 711 MAGLEV, 898 Magnetic field, 563, 1164, 1166
bellows and, 1059 in critical current testing, 714,
715 cryogenic measurement system for,
see Cryogenic magnetic field measurement system
cryogenic steels and, 100 field uniformity and, 602, 604 in 50mm dipole, 593-595 in 5-cm dipole, 622 in HEB dipole, 628, 629 integrated cryogenic sensors and,
870 kicker magnets and, 796, 797 manufacturing tolerances and, 49,
50 in NbTi wire, 407, 408, 409, 410,
412 prestress performance and, 330 in SMES-ETM, 651, 653, 658 SPACAL and, 504 systems engineering and, 1102,
1103 thermal expansion joint and,
1050 three-dimensional, 25-36 toroids and, 226 two-dimensional, see Two-
dimensional magnetic field
Magnetic flux density, 127, 128, 129, 130, 133, 134, 135, 136, 137
Magnetic permeability of electrical steel plate, 133,
136 of high-Mn non-magnetic steel,
81, 82, 87 of non-magnetic stainless steel,
117, 118, 122-123, 124 Magnetic properties, see also
specific properties of electrical steel plate,
127-137, see also Electrical steel plate
of HERA quadrupoles, 322 non-magnetic stainless steel and,
121-123 Magnetic resonance imaging (MRI),
643, 989, 996, 997, 998, 999
Magnetic saturation, 12, 18, 20, 31, see also Ferromagnetic saturation
Magnetic susceptibility, of cryogenic steels, 91, 95, 98, 100-101
1212
Magnetization decay, 407-412 Magnetization effects, field
uniformity and, 606, 608-609
Magnets, see also specific types in air core toroid muon
spectrometer, 967-968 bump, 744, 745 correction, see Correction
magnets dipole, see Dipoles kicker, see Kicker magnets quadrupole, see Quadrupoles reliability program for,
1151-1158 septum, 745 system approach to, 1131-1139 thermal expansion joint for,
1045-1051 for UNK, 742-744, 748-755
Magnet Test Laboratory (MTL) cryogenic system, 873-883
Magnet winding, 27, 29-30 Maintainability, 1158 Major Milestone Systems
Demonstration Test, 1128 Manganese
in cryogenic steels, 92, 93, 98, 100
in electrical steel plate, 128, 132, 133, 137
in HEB filament, 690, 696 in non-magnetic stainless steel,
117, 118, 122-123, 125, see also High-manganese non-magnetic steel
in ultra-low carbon steel, 140, 147
wire breakage and, 671 Manufacturing tolerances of CDM,
49-55 MARS program, 1017 Martensite, 93, 95 Martin Marietta Astronautics, 467,
535 SPACAL development by, 497-505
Massachusetts Institute of Technology (MIT), 646, 1046, 1048, 1050
liquid xenon detector development by, 481-495
Maximum normal stress theory, 153 Mean-time-between failure, 1151,
1152 Mean-Time-To-Repair, 1152 Medium Energy Booster (MEB) , 1091,
1110, 1112 kicker magnets for, 794, 798,
799
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Medium Energy Booster (MEB) (continued) RF system for, 761, 762, 765,
766 global feedback in, 781, 783,
784, 785, 788, 789, 790
Mesons, 533 Metalforming, Incorporated, wire
development by, 341-354 Micron Semi-Conductor, Ltd.,
detector development by, 903-926
Microsoft Word, 1170, 1171, 1172, 1173
Midwest Research Institute (MRI) , 513, 514, 515
Minimum ionizing particle (MIP) calibration, 450
Mises-Hencky yield criterion, 150 MLI, see Multilayer insulation MMS (MultiMuon Spectrometer), 741 Molybdenum, 93, 100, 132 Monoclonal antibodies, 643 Monte Carlo calculations
for liquid xenon detector, 481, 490, 491, 495
for shielding, 1017-1024 for TDC, 932 for warm liquid forward
calorimeter, 249 MOPS (Multiple Object Partitioned
Structure), 804 MRI, see Magnetic resonance
imaging MTD 132 Octal Time Digitizer, see
Time-to-Digital Converter Multilayer insulation (MLI) ,
849-859, 1032, 1036 in ICR, 217-223
MultiMuon Spectrometer (MMS) , 741 Multiple Object Partitioned
Structure (MOPS), 804 Multipoles
cryogenic magnetic field and, 259, 260, 264
defined, 50 field uniformity and, 602, 604,
605, 606, 608, 611, 612 manufacturing tolerance and,
49-55 prestress performance and,
330-332 systems engineering and, 1102 three-dimensional magnetic field
and, 25, 26, 27, 35 two-dimensional magnetic field
and, 11, 12, 14, 16, 18, 20
Muon detectors, 249, 250, 729, 730, 741, see also Air core toroid muon spectrometer
Muons, 532 Muon shielding, 1017, 1020-1022
NASA, 177 NASTRAN analysis, of BGO crystals,
406 National Academy of Engineering
(NAE) , 982 National Academy of Sciences (NAS) ,
982 National Environmental Policy Act
of 1969 (NEPA), 981, 982, 983, 985
National Institute of Nuclear Physics (INFN), 397
National Institute of Standards and Technology (NIST), 95, 96, 98
ultra-low carbon steel manufacture by, 139-145, 147
National Science Foundation, 515 National Technology Transfer Act of
1989, 646 Neel temperature, 98, 122, 125 NEPA, see National Environmental
Policy Act of 1969 Neumann boundary
field uniformity and, 609, 610 magnetic field and, 18, 20
Neutron radiation, 108, 109, 941, 1045
clinical applications of, 639, 643, 646
Neutrons, 532, 938, 940, 1017, 1018, 1020
Nevis Laboratories, 728-729, 730 New England Wire Corporation, 383 NFPA standards, 1009, 1012 Nickel
in cryogenic steels, 91, 92, 93, 95, 96, 98, 100, 101, 102, 103, 105
ferromagnetic effects of, 365-372
in non-magnetic stainless steel, 117-118, 123, 124, 125
Nickel plating of wire, 376 Nickel wire, 375, 377 Niobium cable, 704 Niobium/tin conductor, 355-364
tin-core process in, 356-360, 361, 364
tubular-tin-source process in, 360-361, 362, 363, 364
Niobium/tin wire, 342
1213
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Niobium/titanium cable, 615, 683-688, 704, 1046
Niobium/titanium conductor, 355, 356, 379, 385, 387
Niobium/titanium filament, 380, 385, 387, 751
for HEB, see Filament, for HEB Niobium/titanium strand, 366 Niobium/titanium/tantalum
conductor, 355 Niobium/titanium wire, 608,
683-688, 704, 714 breakage prevention in, 341-354
analytical simulation of, 348-350
case study of, 350-354 failure of, 343 strength differences and,
345-347 magnetization decay in, 407-412
Niobium wire, 672, 704 Nippon Steel Corp.
electrical steel plate manufacture by, 127-137
non-magnetic stainless steel manufacture by, 117-125
Nitrogen, see also Liquid nitrogen containers for, 894 in cryogenic steels, 92, 93, 94,
95, 98, 100, 102, 103, 105
in electrical steel plate, 128, 132, 137
in non-magnetic stainless steel, 117, 121
in ultra-low carbon steel, 140 Nitronic 40 steel, 148, 326, 554,
562 Nobel liquid xenon calorimeter,
437 Noell, 313, 314 Noise
in barium fluoride crystal calorimeter, 445-447
in silicon microstrip detectors, 909, 912, 913, 914, 920, 922, 923, 924, 925
Non-linear magnetization, 49 Non-magnetic gaps
three-dimensional magnetic field and, 25, 30-32, 34-36
two-dimensional magnetic field and, 14-16
Non-magnetic stainless steel, 117-125, see also Highmanganese non-magnetic steel
Normalized errors, in coil size, 64
1214
Nory1, 175, 181, 183, 185, 186, 188
Novo1ipetsk Integrated Iron-andSteel Works, 751
Nucleon shielding, 1017 Numerical roundoff errors, 18
Oak Ridge National Laboratory (ORNL), 113, 967
Occupational Health and Safety Administration (OSHA), 1007, 1012, 1014
Octupo1es, 205 Omnipage program, 1171, 1172, 1173 Operating and Support Hazard
Analysis, 1010 Optix program, 1171, 1172, 1173 Oregon Institute of Technology,
personnel qualification by, 517-523
Ortec shaping amplifiers, 484 OSHA, see Occupational Health and
Safety Administration
Pacific HVAC intertie system, 649 PAR2DOPT program, 588 Pauli Exclusion principle, 532 PBfMK Team, 421-425 PBTS (Proton Beam Therapy System),
643 PE2D program, 49, 50, 590, 591,
597, 628 PEEK, 188, 309, 310 Personnel qualification, 517-523 PET, see Polyethylene tereptha1ate PET (Positron Emission Tomography),
643 PHA, see Preliminary hazard
analysis Phosphorus, 132, 133 Photons, 437, 438-440, 448, 450,
453 Photon shielding, 1017, 1020, 1021 PICT format, 1171 Pin-hole problem, 251 Pions, 643, 1017, 1018 Pixel detectors, 935, 953-962
hybrid PIN diode arrays in, 955-956, 959, 962
radiation and, 954, 958-959, 962 SCC prototype of, 957-958 signal processing in, 961 thinned readout of, 959
Plant of Synthetic Materiels, 750 POISSON program
for field uniformity, 604, 605, 608
50mm dipole and, 590, 591, 592, 593, 594, 597
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POISSON program (continued) magnetic field calculations with,
18 Poisson's ratio
of cryogenic steels, 101, 103 in toughness tests, 76
Polyethylene terepthalate (PET), 221, 850, 851, 854, 856, 1032
POPE (Proof of Principle Experiment), 659
Positron Emission Tomography (PET), 643
PostScript, 1170, 1172, 1173, 1174, 1175, 1176
Precision lepton photon detector, 437
Preliminary hazard analysis (PHA) , 1008, 1010-1011, 1012
Pressure Systems, Inc., cryogenic sensor of, 861-871
Prestress performance, 325-332 Process Reliability Analysis and
Monitoring, 283, 285 Promod, 543 Proof of Principle Experiment
(POPE), 659 Proton Beam Therapy System (PBTS),
643 Proton radiation, 109, 639, 640,
643, 644 Protons, 313, 532 Proton Therapy Cooperative Group
(PTCOG), 643 Proton Therapy System, 646 Proximity effect coupling
in HEB dipole, 632-633 NbTi wire and, 407, 408, 409,
410 Pseudo-cryogenic stabilization,
1048 PSPICE program, 443 Psuedo-cryogenic stablization,
1046 PTCOG (Proton Therapy Cooperative
Group), 643 PYTHIA program, 439
Quadrupoles, 802 bellows and, 1063, 1065 for collider, see Collider
quadrupole magnet half cell, 1049 for HERA, see HERA quadrupole low beta, 355 magnetic field measurement system
for, 259 systems engineering and, 1100,
1102-1103
for UNK, 742, 743, 744, 748, 749, 751
for warm liquid forward calorimeter, 249
Quality assurance, 701-711, 713, 714, 1133
MagCom in, 3, 701, 703-705, 711 Quality control
of cold mass supports, 184-185 of MLI, 858-859
Quarks, 532, 533 Quartz, Inc., 745, 746 Quenches, 165, 287, 551, 557, 1127,
1128, 1163, 1164 ALT program and, 1053, 1057 CDH prestress and, 325, 326, 327,
330, 331 cryogenics and, 809, 810, 812,
816, 881 defined, 834 field bus and, 193 in 50mm dipole, 581-582, 587,
593-596 in 5-cm dipole, 615, 622 in REB dipole, 632 helium venting model and, see
Helium venting model high-Hn non-magnetic steel and,
84, 85, 87 spool piece and, 207-209, 210,
214 support posts and, 304 systems engineering and, 1100 thermal expansion joint and,
1046 toroids and, 227, 228
Radeka amplifiers, 484 Radial coils, 261, 269 Radial modulus of coil, 165, 166,
169-170, 172, 173 Radiation, 532, see also specific
types barium fluoride crystal
calorimeter resistance to, 438, 451-453
in cancer therapy, 639-640, 641, 642, 643, 645
detectors and, 937-943 insulation and, 107-114 integrated cryogenic sensors and,
869, 870 liquid xenon detector and, 482 pixel detectors and, 954,
958-959, 962 SPACAL and, 505 support posts and, 304 thermal expansion joint and,
1045, 1050
1215
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Radio Frequency Quadrupole (RFQ) , 448-450, 454, 642, 644
RF system for, 771, 773-774 Random errors
field uniformity and, 601, 606, 612, 614
in 50mm dipole, 587, 596-597 Raster images, 1171, 1175 Ray Tracing Code, 459 Reflective memory, 803-804
in field bus, 193, 195-196, 197, 199
Refrigeration systems, see Cryogenic systems
Relativistic Heavy Ion Collider (RHIC)
conductor specifications for, 383, 384, 385, 387
FTAte TRAinSCC and, 935 support posts for, 175, 177,
178-180, 181, 183, 187, 188, 302, 311
Relay Ladder Logic (RLL) , 889 Residual risk, 1009, 1014 Reversible Rack 2 Bus Bar System,
375 RF accelerator systems, 802
global fee back in, see Global RF feedback system
for LINAC, see under LINAC for synchrotrons, 761-769 for UNK, 742, 746-747
RFQ, see Radio Frequency Quadrupole
R-glass, 113 RHIC, see Relativistic Heavy Ion
Co11ider Riken, 482 Risk, 1009, 1014 Risk assessments, 1013 Risk management and control, 1133 Risk resolution, 1013-1014 RLL (Relay Ladder Logic), 889 Robert Bosch Corporation, 1147 Robotics, 431 Rockwell International, 535 Rugby Ball support structure, 397,
398, 403
Saclay, 710 HERA quadrupole development by,
313-324 Safan Co., 751 Safety, see System safety Safety assessments, 1014-1015 Safety design criteria, 1009 SAIC, 644 Sausaging, 352, 353, 354, 360, 387,
680
1216
Scalar potential approach, 26-32 Scanning, 1171 Science Applications International
Corporation, accelerators of, 639-647
Scintillating calorimeters, 945-950, see also specific types
Scintillating Fiber-Lead Calorimeter (SPACAL), 497-505
EM module of, 501-502 eutectic module of, 497, 500-501 hadronic module of, 501-502 laminated module of, 497, 498
Scintillating/uranium calorimeters, 939
SDH (Synchronous Digital Hierarchy), 802
Self-Describing Data Set (SDS) , 804
Septum magnets, 745 Serpukhov, 1017 Sextupoles, 52, 205, 556, 563
ferromagnetic materials and, 365-372
field uniformity and, 604, 606, 607, 608, 609, 611
magnetic field calculations and, 13, 16, 25, 32, 33-34, 35-36
in UNK, 742-743 Shanghai Institute of Ceramics
(SIC), 451 Shell, 553, 570
of 50mm dipole, 273, 275, 276, 277, 576, 580
of 5-cm dipole, 618 prestress performance and, 328 thermal expansion joint and,
1046 Shell hoop prestress, 413-417 Shielding calculations, 1017-1024 Signal cable feedthru (SCFT),
233-244 Signal-to-noise ratio
in pixel detectors, 954, 956 in silicon micros trip detectors,
904, 905, 912, 918 Silicon, 132, 671 Silicon microstrip detector,
903-926 absolute calibration in, 922-926 advantages of, 904-905 data acquisition on, 910 diode signals in, 903, 905-907,
912-922, 923, 924, 925 leakage currents and, 910-911 microcode and triggering in,
909-910
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Silicon micros trip detector (continued) noise characteristics of, see
under Noise; Signal-tonoise ratio
ohmic signals in, 903, 905, 906, 912-922, 923, 924, 925
readout in, 903, 905, 907-909, 910, 922
Single Photon Emission Computed Tomography (SPECT), 643
Skin CDM producibility and, 42 cold mass end shell and, 287,
288, 290, 293, 294 cold mass frequency response and,
296 of 50mm dipole, 576, 581
Slots, 11, 14, 16, 21-23, 26, 602 Small symmetric multiprocessor
(SMP) computers, 197 SHES-ETM program, see
Superconducting Magnetic Energy Storage-Engineering Test Model program
Software Hazard Analysis, 1010 Solar Energy Research Institute
(SERI) education programs, 513-515
Solenoid Detector Collaboration (SDC) , 245, 246, 249, 728, 1168
Solenoids, 503, 651, 652 SONET (Synchronous Optical
NEtwork), 802-803, 805 Southern Pipe Plant, 751 Southhampton University, 869 SPACAL, see Scintillating Fiber-
Lead Calorimeter Space Sciences Laboratory, detector
development by, 953-962 Spark chamber, 729 Spatial discretization errors, 18 SPC, see Statistical process
control Specification trees, 1093, 1136 SPECT (Single Photon Emission
Computed Tomography), 643 SPICE circuit model, 209 Spool piece, 203-215
ASHE specification on, 214-215 beam monitor in, 205-206 beam tube in, 203, 204 correction magnets in, 205-206 cryogenics of, 203, 205, 210 piping and relief valves in,
210-214 piping & instrumentation diagram
of, 209
Spool piece (continued) quench suppression in, 207-209,
210, 214 recooler and supporting
components in, 214 vacuum barrier in, 206
Spot welding, 118, 123 SRSS analysis, of ground motion,
1040 Stainless steel, 218, 458, 750, see
also High-nitrogen stainless steel; Nonmagnetic stainless steel
Standard Arc Half-Cell Interface Control Document (ICD), 1100, 1101, 1102, 1103, 1105, 1107, 1108
Standard magnets, 319-320 Stanford Linear Accelerator Center
(SLAC) , 479, 535, 731, 733 pixel detector development by,
953-962 STARLINK, 521 State Institute for Designing the
Plants of Oxygen Industry (SIDOI), 756
State Union Designing Institute, 756, 757
Statistical Analysis and Prediction, 283, 285
Statistical process control (SPC), 55, 253-255, 258, 542, 1165
Steel, see Cryogenic steels; Stainless steel; Ultra-low carbon steel
Sterilization, 639, 643 Stevenson-Wydler Technology
Innovation Act of 1980, 646
Strain gauges, 558, 566-567 calibration of, 335-340 for 50mm dipole, 576, 579, 582,
585 Goodzeit type, 1077-1085 MagCom and, 5, 7
Strand, 665-674 billet alloy and, 673 billet electrical performance
and, 668-669 billet mechanical performance
and, 665-668 cable performance and, 670 critical current degradations
and, 675-681 NbTi, 366
Strand eddy currents, 625, 629-631 Strategic Defense Initiative, 642,
649, 650
1217
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Stress relaxation, in coils, 155-163
Sulfur, 132, 133 Sumitomo Electric Industries, LTD,
cable & wire development by, 683-688
SUN workstations, 4, 789, 1040 Supercon, Inc., conductor
production by, 379-387 Superconducting Magnetic Energy
Storage-Engineering Test Model (SMES-ETM) program, 649-660
benefits of, 659-660 component testing and development
in, 659 description of, 651-652 design parameters of, 652-659 technical requirements for,
650-651 Superconducting Super Co1lider
Laboratory (SSCL), 434, 547, 989
accelerator development by, 801-805
CDM prestress tests by, 325-332 CDM producibility and, 41, 46 CDM test program at, 1160, 1161,
1162, 1163, 1166 coil tooling/process of, 57-74 cold mass end shell study by,
287-294 cold mass frequency response
study of, 295-299 cold mass support testing by,
175-188 cryogenic system development by,
809-819, 885-890 DTASS at, 1167-1176 education programs of, 535 environmental issues and, 984,
985 field bus project of, 193-202 5-cm dipole development by,
615-624 ground motion studies of,
1037-1043 REB development by, 625-636,
695-699 helium venting model of, 833-846 ICR project of, 217-223 insulation development by,
389-395 LAC development by, 233-244 MagCom in, 3-9 quality assurance program of,
701-711
1218
reliability and availability design by, 1151-1158
Superconducting Super Collider Laboratory (SSCL) (continued) RF system development by,
761-769, 771-779. 781-792
spool piece design by, 203-215 strain gauge calibration by.
335-340 strand development by, 665-674,
675-681 system approach of, 1131-1139 system safety at. 1005-1015 systems engineering by,
1089-1097. 1099-1108 technology transfer
considerations of. 1125-1130
thermal expansion joint design by, 1045-1051
ultra-low carbon steel testing by, 147-153
wire development by, 713-723 Superconductor hysteresis, 625,
628-629, 635 Superconductor magnetization, 11,
12, 18, 26 Support posts, 175-188, 301-311
cold mass frequency response and, 295, 296, 298
creep in, 181, 304 FEA of, 307 IMC material in, 178, 180-181,
184-185, 186, 187 laboratory tests of, 308 main functions of, 301 material selection for, 304 quality control in, 184-185 in BRIC, 175, 177, 178-180, 181,
183, 187, 188, 302, 311 in SCC, 187-188 shearing force in, 181-183
Swimming pool TBM, 245, 246, 247 SYBASE, 4 Synchrocyclotron, 728 Synchronous Digital Hierarchy
(SDH) , 802 Synchronous Optical NETwork
(SONET), 802-803, 805 Synchrotrons, see also specific
types applications of, 643, 646 kicker magnets for, 793-799 RF systems for, 761-769
SYSTAT, 706-707. 709, 711 Systematic errors
in critical current testing, 713-723
field uniformity and, 601, 606, 611-612
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System design approach, 1131-1139 System safety, 1005-1015
defined, 1006 interfaces in, 1008 process of, 1006 professional responsibilities in,
1007 tasks in, 1008-1009
Systems engineering, 1089-1097, 1099-1108
configuration management in, 1092, 1094, 1107
critical design drivers in, 1103-1105
defined, 1089 design reviews in, 1092-1094 interface control in, 1100-1102 planning in, 1091 specifications in, 1091-1092 technical performance
measurements in, 1094 trade studies on, 1095-1096
System/Subsystem Hazard Analysis, 1010
Tangential coils, 261, 269 Tangential Modulus tests, 166 Tasks analysis, 1011 Tau-Charm Factory, 935 TBM, see Test beam module TDC, see Time-to-Digital Converter TDM, see Time domain multiplexing Teledyne, 650 Tens stacks of cable
curing effect on, 57, 59, 61, 62, 63, 70
Goodzeit gauges and, 1080-1083, 1084, 1085
Test beam module (TBM) , 245, 246, 247, 249
Test stand instrumentation, 558 Tetramethylpentane, 245, 251, 464 Tevatron, 579, 1112, 1113, 1114
cable stress relaxation in, 162 detector collaborations on, 728,
733 magnetization decay in, 407 spool piece of, 207
Texas Accelerator Center, 521 Texas Instruments, 888-889 Texas National Research Laboratory,
421, 985 T-glass, 113 Thermal expansion joint, 1045-1050 Thermal shields
for air core toroid muon spectrometer, 970
for 50mm dipole, 851-855, 856, 857, 858, 859, 1031, 1032, 1036
Thermal shields (continued) for ICR, 217-223 test program for, 1160
Three-dimensional finite element analysis (FEA)
of cold mass end shell, 288-290, 292
of cold mass frequency response, 296
for field uniformity, 601, 602 Three-dimensional magnetic field,
25-36 TIFF format, 1171 TIG welding, 75, 76, 81-84, 87,
414 Time domain multiplexing (TDM) ,
801, 802-803, 804, 805 in field bus, 193, 195, 196, 199
Time-to-Digital Converter (TDC) , 927-936 .
FTAte TRAinSCC and, 935-936 measuring charge of, 932-934 measuring time of, 929-932 monolithic integrated circuit of,
928 multi-hit pipelines of, 934
Tin plating of wire, 375, 377 Tin processes
core, 356-360, 361, 364 tubular, 360-361, 362, 363, 364
TISOFT program, 889 TISTAR control system, 888-890 Titanium, 101, 476 TIWAY I, 889, 890 TOPAZ, 137 Top hats, 559 Tore Supra Tokamak, 828, 829 Torlon, 304, 309, 310, 311 Toroids
air core, see Air core toroid muon spectrometer
for EMPACT, 225-231 for SPACAL, 503
TOSCA code, 49 Tradeoff analysis, 1138 Trade tree studies, 41 Transient shielded cryogenic
containers, 891-898 Translators, 1170 Tri-metal wires, 341, 342, 346,
348, 349, 351, 352 TRIUMF, 762, 764 Tubular-tin-source process,
360-361, 362, 363, 364 20K thermal shield, 217, 220,
852-855, 856, 859, 1031, 1032, 1036, 1160
Two-dimensional finite element analysis (FEA)
of cold mass end shell, 291
1219
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Two-dimensional finite element analysis (FEA) (continued) for field uniformity, 601, 602,
604-605 Two-dimensional magnetic field,
11-23, 25 closed form solutions in, 11,
12-13, 20 FEA in, see Finite element
analysis, in magnetic field analysis
non-magnetic gaps and, 14-16
Ul'binsk Metallurgical Plant, 748 Ultem, 175, 177, 181, 183, 185,
186, 188, 304, 309, 311 Ultra-low carbon steel, 147
warm prestress of, 139-145 Unifying theory, 640 Universitat Munchen, 527 Universities Research Association
(URA), 421 University of Houston, personnel
qualification by, 517-523 University of Oklahoma
pixel detector development by, 953-962
silicon micros trip detector development by, 903-926
University of Texas, 429 University of Wisconsin, 649, 650,
651, 659 UNIX operating system, 4, 197, 703,
706, 789, 1170, 1174 UNK, 739-757
controls for, 756-757 cryogenics for, 755-756 first stage of, 742-748 operation of, 739 second stage of, 748-751 status of, 741-742
Upilex-SR tapes, 617 Uralelectrotyazhmash, Inc., 744
Vacuum barriers in HERA quadrupoles, 315, 321 in spool piece, 206
Vacuum systems of SMES-ETM, 652 for UNK, 742, 745-746
Vacuum vessel CDM producibility and, 41-44, 45 in 50mm dipole, 271-282,
1030-1031 buckling criteria in, 276-277,
280 fabrication experience in, 281 FEA of, 273, 275-276, 282 stress relieving in, 281
ground motion and, 1037
1220
Vacuum vessel (continued) in HERA quadrupole, 316 in LAC, 471 of SMES-ETM, 651, 657 technology transfer and, 1130
Vanadium, 75, 79, 80, 81, 87 van der Waals forces, 533 Variation simulation analysis
(VSA) , 46-47 Vavilov calculations, of silicon
microstrip detectors, 922, 925
VAX systems, 288, 296, 706 Vertical errors, in coil size, 64,
66, 68, 69 Vertical yokes, 290, 576, 588, 591,
592 Vespel, 304, 311 Vickers hardness, of high-Mn non-
magnetic steel, 81, 82 Victrex, 304 VLSI readout system, 903 VME systems, 263, 789, 805, 889 Von Mises stresses
on LAC, 471 on thermal expansion joint, 1046,
1050, 1051 on ultra-low carbon steel, 150
VSA (Variation simulation analysis), 46-47
VxWorks system, 263
WALIC collaboration, 245 Wall chart, 525, 528-535 Warm liquid calorimeter, 457-468
baseline concepts in, 458 EM modules in, 464 final conceptual design of,
464-468 hadronic modules in, 458, 459,
462, 464 hermeticity study of, 459-464
Warm liquid forward calorimeter, 245-252
Warm prestress, of ultra-low carbon steel, 139-145
W-bosons, 532, 733 W6733 cross-section, 576, 587-599,
see also Cross-section Welding, 570
of cryogenic steels, 97-98 of 50mm dipole, 579-580 of high-Mn non-magnetic steel,
75, 76, 81-84, 87 of ICR, 218, 219 of non-magnetic stainless steel,
118, 123 shell hoop prestress and,
413-417
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VEMAP analysis, for field uniformity, 604, 608
Western Power Grid, 651 Westinghouse Electric Corporation,
539, 540, 543, 547, 650 field uniformity requirements of,
601-614 magnetic field calculations by,
11-23, 25-36 Wigner energy, 108 Wires, see also Conductors
in air core toroid muon spectrometer, 971
break analysis of, 671-673 critical current testing of,
713-723 Cu, 376, 409, 410, 411 CuNb, 409, 410 electroplated, 375-377 field uniformity and, 608 high resistive matrix, 409-410 for LAC, 239 Nb, 672, 704 Nb3Sn, 342 NbTi, see Niobium/titanium wire Ni, 375, 377 quality assurance for, 701-711,
713, 714, see also Quality assurance
technology transfer and, 1127, 1128
for liNK, 748, 749, 751, 752, 753, 754
Wisconsin Utilities Research Foundation, 649
Wiskers, 707 WMPK analysis
for field uniformity, 604, 605, 608, 612
in magnetic field calculations, 18
WHVP analysis, for field uniformity, 604
Word processors, 1174-1175 WORM drive, 4
X-rays, 643 Xydar, 304
Yoke hysteresis, 625, 633, 635 Yokes, 550, 551, 552, 553, 556
ALT program and, 1057 brittle behavior of, 147-153 CDH producibility and, 42, 44 cold mass end shell and, 287,
288, 290, 291, 293 cold mass frequency response and,
295, 296, 298 electrical steel plate for, 127,
132, 133, 137 field uniformity and, 601,
606-609, 612 in 50mm dipole, 273, 576, 579,
580, 584, 587, 588, 590, 594
in 5-cm dipole, 616, 618, 621 ground motion and, 1039 in HEB dipole, 628, 635 high-Hn non-magnetic steel in,
76, 84, 86, 87 horizontal, see Horizontal yokes magnetic field and, 11, 12,
14-16, 18, 19, 20, 25 manufacturing tolerances and, 49,
50, 55 prestress performance and, 326,
327, 328 quenches and, 836, 837, 838, 843,
845 shell hoop prestress and, 414,
416 technology transfer and, 1128 thermal expansion joint and,
1046 ultra-low carbon steel in,
147-153 vertical, see Vertical yokes
Young's modulus in bellows, 1062 in coil compression, 568 in cryogenic steels, 101, 103 in HERA quadrupole, 313, 318,
319 in toughness tests, 76
Z-bosons, 532, 733, 735 Zinc plating of wire, 375, 377
1221