Paper |
Title |
Other Keywords |
Page |
MO2-03 |
The Scientific Legacy of the SSC Linac
|
linac, DTL, emittance, proton |
41 |
|
- L.W. Funk
SSC, Dallas, Texas, USA
|
|
MO-07 |
Design of Beam-Transport Line between the RFQ and the DTL for the JHP 1-GeV Proton Linac
|
emittance, DTL, injection, simulation |
59 |
|
- T. Kato
KEK, Ibaraki, Japan
|
|
MO-23 |
Accelerator Performance Demonstration Facility in Los Alamos
|
DTL, linac, cavity, diagnostics |
101 |
|
- K.C.D. Chan, J.H. Billen, N.K. Bultman, L. Eaton, R.W. Garnett, J.D. Gilpatrick, A.J. Kozubal, R.H. Kraus, F.L. Krawczyk, G. Lawrence, D. Liska, S. Nath, J.D. Schneider, D. Schrage, J. Sherman, P. Smith, R.R. Stevens, Jr., P.J. Tallerico, R.L. Wood, L.M. Young, C.D. Ziomek
LANL, Los Alamos, New Mexico, USA
|
|
MO-25 |
Design of a Current-Independent Matching Section for APDF
|
DTL, quadrupole, simulation, emittance |
107 |
|
- R.W. Garnett
LANL, Los Alamos, New Mexico, USA
- P. Smith
Grumman Aerospace Corporation, Bethpage, New York, USA
|
|
MO-27 |
First Beam Test of the JAERI 2 MeV RFQ for the BTA
|
proton, JAERI, ion, ion-source |
113 |
|
- K. Hasegawa, N. Ito, J. Kusano, M. Mizumoto, H. Oguri
JAERI/Tokai, Ibaraki-ken, Japan
- H. Murata, S. Tatsumi
Sumitomo Heavy Industries Ltd., Ehime-ken, Japan
|
|
MO-28 |
Optimum Combination of Low-β Cavities for a Proton Linac
|
cavity, DTL, coupling, acceleration |
116 |
|
- K. Ikeda, J. Hirota, T. Kan, H. Yokobori
Mitsubishi Atomic Power Industries, Yokohama-shi, Japan
- M. Inoue, Y. Iwashita, A. Noda
Kyoto University, Kyoto, Japan
|
|
MO-30 |
Improvement of the Low Energy Beam Transport System at the ICR 7 MeV Proton Linac
|
ion, ion-source, focusing, optics |
122 |
|
- M. Kando, H. Dewa, H. Fujita, M. Ikegami, M. Inoue, Y. Iwashita, S. Kakigi, A. Noda, T. Shirai
Kyoto University, Kyoto, Japan
|
|
MO-31 |
Tools for the Design of High-Current Linacs
|
space-charge, focusing, DTL, quadrupole |
125 |
|
- J.-M. Lagniel
CEN-Saclay, Gif-sur-Yvette, France
|
|
MO-34 |
CWDD Accelerator at Argonne - Status and Future Opportunities
|
neutron, proton, target, controls |
131 |
|
- G.E. McMichael, J. Carwardine, P. Den Hartog, L. Sagalovsky, T. Yule
ANL, Argonne, Illinois, USA
- I. Clarkson, R. Papsco
Grumman Aerospace Corporation, Bethpage, New York, USA
- G. Pile
Culham Laboratory, Oxfordshire, England
|
|
MO-42 |
Installation of a CW Radiofrequency Quadrupole Accelerator at Los Alamos National Laboratory
|
proton, ion, controls, ion-source |
149 |
|
- J.D. Schneider, G.O. Bolme, V. Brown, M. Milder, G. Neuschaefer, D. Rees, P. Schafstall, J. Sherman, R.R. Stevens, Jr., T. Zaugg
LANL, Los Alamos, New Mexico, USA
- G.E. McMichael
ANL, Argonne, Illinois, USA
- J. Sheikh, T. Taylor
Atomic Energy of Canada, Chalk River, Ontario, Canada
|
|
MO-43 |
A New RFQ Linac Fabrication Technique
|
linac, LANL, cavity, vacuum |
152 |
|
- D. Schrage, W. Clark, R. DePaula, F. Martinez, P. Roybal, L.M. Young
LANL, Los Alamos, New Mexico, USA
|
|
MO-44 |
Design and Experiments of the RFQ Linac at Kyoto University
|
emittance, linac, beam-transport, quadrupole |
155 |
|
- T. Shirai, H. Dewa, H. Fujita, M. Ikegami, M. Inoue, Y. Iwashita, S. Kakigi, M. Kando, A. Noda
Kyoto University, Kyoto, Japan
|
|
MO-45 |
30 MeV Proton Linear Accelerator with RFQ Focusing (Oral Poster)
|
cavity, focusing, quadrupole, acceleration |
158 |
|
- V.A. Zenin, A.P. Maltsev, I.G. Maltsev, V.V. Nezhegorodsev, V.B. Stepanov, V.A. Teplyakov
Institute for High Energy Physics, Protvino, Moscow Region, Russia
|
|
MO-46 |
The Double Eagle Space Experiment (DESE) Beamline Design
|
DTL, optics, emittance, proton |
163 |
|
- A.M.M. Todd, D. Berwald, D.L. Bruhwiler, S.L. Mendelsohn, C.C. Paulson, M.F. Reusch, P. Walstrom
Grumman Research and Development Center, Princeton, New Jersey, USA
- A.J. Jason, R.H. Kraus, W.P. Lysenko, C.T. Mottershead, F. Neri, O.R. Sander, R.E. Shafer, E.A. Wadlinger
LANL, Los Alamos, New Mexico, USA
|
|
MO-47 |
First Operation of a 432-MHz, 3-MeV RFQ Stabilized with PISLs (Oral Poster)
|
emittance, proton, ion, ion-source |
166 |
|
- A. Ueno, S. Anami, Z. Igarashi, M. Kawamura, M. Kihara, C. Kubota, K. Kudo, Y. Mori, Y. Morozumi, M. Ono, A. Takagi, E. Takasaki, Y. Yamazaki, K. Yoshino
KEK, Ibaraki, Japan
- S. Fujimura
Graduate University for Advanced Studies, Ibaraki, Japan
|
|
MO-48 |
High-Power Test of a 432-MHz, 3-MeV RFQ Stabilized with PISLs
|
cavity, vacuum, klystron, linac |
169 |
|
- A. Ueno, S. Anami, Z. Igarashi, M. Kawamura, M. Kihara, C. Kubota, K. Kudo, Y. Mori, Y. Morozumi, M. Ono, A. Takagi, E. Takasaki, Y. Yamazaki, K. Yoshino
KEK, Ibaraki, Japan
|
|
MO-49 |
Low-Power RF Characteristics of a 432-MHz, 3-MeV RFQ Stabilized with PISLs
|
dipole, quadrupole, vacuum, cavity |
172 |
|
- A. Ueno, Y. Yamazaki
KEK, Ibaraki, Japan
|
|
MO-50 |
Performance of the CERN Linac 2 with a High Intensity Proton RFQ (Oral Poster)
|
linac, emittance, booster, CERN |
175 |
|
- C.E. Hill, A.M. Lombardi, W. Pirkl, E. Tanke, M. Vretenar
CERN, Geneva, Switzerland
|
|
MO-52 |
An 8-Meter-Long Coupled Cavity RFQ Linac
|
quadrupole, coupling, dipole, cavity |
178 |
|
- L.M. Young
LANL, Los Alamos, New Mexico, USA
|
|
MO-67 |
Distribution of the RF Losses on the Electrodes of Accelerating Structure with Spatial Periodic RFQ Focusing
|
electron, cavity, focusing, acceleration |
222 |
|
- O.K. Belyaev
Institute for High Energy Physics, Protvino, Moscow Region, Russia
|
|
MO-69 |
Ending RFQ Vanetips with Quadrupole Symmetry
|
quadrupole, controls, linac, acceleration |
227 |
|
- K.R. Crandall
Consult Crandall, Sandia Park, New Mexico, USA
|
|
MO-75 |
Frequency Tunable 4-rod RFQ
|
impedance, cavity, ion, quadrupole |
245 |
|
- Y. Iwashita
Kyoto University, Kyoto, Japan
- H. Fujisawa
Nissin Electric Co. Ltd., Kyoto, Japan
|
|
MO-78 |
Normal Mode Analysis of the Four Rod RFQ as a System of TEM Transmission Lines
|
quadrupole, impedance, dipole, linac |
254 |
|
- V. Kapin, M. Inoue, Y. Iwashita, A. Noda
Kyoto University, Kyoto, Japan
|
|
MO-84 |
Engineering Design and Fabrication of a CW Deuterium RFQ
|
cavity, vacuum, cryogenics, quadrupole |
272 |
|
- J.W. Rathke
Grumman Aerospace Corporation, Bethpage, New York, USA
- L.M. Young
LANL, Los Alamos, New Mexico, USA
|
|
MO-85 |
Design Study of a Four Vane RFQ for High Duty Cycle Operation
|
dipole, cavity, quadrupole, GSI |
275 |
|
- U. Ratzinger, E. Malwitz, M. Rau
GSI, Darmstadt, Germany
|
|
MO-90 |
Construction of a Superconducting RFQ Structure
|
niobium, superconducting-RF, ATLAS, ion |
290 |
|
- K.W. Shepard
ANL, Argonne, Illinois, USA
- J. Givens, J.M. Potter
AccSys Technology Incorporated, Pleasanton, California, USA
|
|
MO-92 |
Tuning Method for the Accelerating Structure with RFQ Focusing and Increasing Voltage
|
cavity, focusing, linac, acceleration |
296 |
|
- O.K. Belyaev, V.V. Klokov, V.S. Sevostyanov, V.B. Stepanov
Institute for High Energy Physics, Protvino, Moscow Region, Russia
|
|
MO-97 |
Performance Report on the Ground Test Accelerator Radio Frequency Quadrupole
|
emittance, simulation, quadrupole, diagnostics |
308 |
|
- O.R. Sander, W.H. Atkins, G.O. Bolme, S. Brown, R. Cole, R.W. Garnett, J.D. Gilpatrick, F.W. Guy, W.B. Ingalls, K.F. Johnson, D. Kerstiens, C. Little, S. Lloyd, R.A. Lohsen, W.P. Lysenko, G. Neuschaefer, J. Power, D.P. Sandoval, R.R. Stevens, Jr., G. Vaughn, E.A. Wadlinger, V. Yuan
LANL, Los Alamos, New Mexico, USA
- R. Connolly
BNL, Upton, New York, USA
- K. Saadatmand
SSC, Dallas, Texas, USA
- R. Weiss
Ray Rashkin Associates, Mesa, Arizona, USA
|
|
TU1-02 |
Spallation Neutron Sources
|
neutron, linac, proton, target |
322 |
|
- H. Klein
IAP, Frankfurt-am-Main, Germany
|
|
TU1-03 |
Review of the APDF and Other Low-β, High-Duty-Factor Linacs
|
linac, DTL, ion, proton |
328 |
|
- R.A. Hardekopf
LANL, Los Alamos, New Mexico, USA
|
|
TU-05 |
Axial Magnetic Field Produced by Radially Magnetized Permanent Magnet Ring
|
ion, ion-source, ECR, permanent-magnet |
369 |
|
- Y. Iwashita
Kyoto University, Kyoto, Japan
|
|
TU-14 |
Experimental Study of a Simple Method to Chop Penning SPS H- Beams (Oral Poster)
|
extraction, plasma, neutron, ion |
393 |
|
- H.V. Smith, Jr., P. Allison, J.D. Schneider, J.E. Stelzer
LANL, Los Alamos, New Mexico, USA
|
|
TU-16 |
Recent Developments with Multicusp Ion Sources at Grumman
|
ion, ion-source, controls, plasma |
398 |
|
- S.T. Melnychuk, T.W. Debiak, G. Gammel, J.J. Sredniawski
Grumman Aerospace Corporation, Bethpage, New York, USA
|
|
TU-37 |
Installation and Test Results of a High-Power, CW Klystrode Amplifier at Los Alamos National Laboratory
|
klystron, cavity, controls, cathode |
451 |
|
- M.T. Lynch, D. Keffeler, D. Rees, W. Roybal
LANL, Los Alamos, New Mexico, USA
- J. Sheikh
Atomic Energy of Canada, Chalk River, Ontario, Canada
|
|
TU-46 |
Operation of 432-MHz RF Source for the JHP Proton Linac
|
klystron, cavity, controls, feedback |
472 |
|
- M. Ono, S. Anami, H. Hanaki, Z. Igarashi, M. Kawamura, T. Kubo, C. Kubota, K. Kudo, E. Takasaki, T. Takenaka
KEK, Ibaraki, Japan
|
|
TU-69 |
Reducing Longitudinal Emittance Growth in RFQ Accelerators (Oral Poster)
|
emittance, ion, bunching, acceleration |
526 |
|
- S. Koscielniak
TRIUMF, Vancouver, Canada
|
|
TU-78 |
DC Proton Beam Measurements in a Single-Solenoid Low-Energy Beam Transport System
|
emittance, solenoid, ion, proton |
549 |
|
- R.R. Stevens, Jr., P. Schafstall, J.D. Schneider, J. Sherman, T. Zaugg
LANL, Los Alamos, New Mexico, USA
- T. Taylor
Atomic Energy of Canada, Chalk River, Ontario, Canada
|
|
TU-81 |
Matching of RFQ Beam with Periodic Focusing Structures (Oral Poster)
|
focusing, emittance, DTL, ITEP |
558 |
|
- I.A. Vorbjov, A.A. Kolomiets
ITEP, Moscow, Russia
|
|
TU-92 |
Design of a Transport System after the TIT-RFQ for Beam-Plasma Interaction Experiments
|
ion, linac, heavy-ion, target |
582 |
|
- K. Sasa, T. Hattori, T. Ito, Y. Oguri, M. Okada, M. Okamura
Tokyo Institute of Technology, Tokyo, Japan
|
|
TU-98 |
A Compact Double Einzel Lens LEBT with Steering for H+ Beams
|
ion, ion-source, optics, emittance |
594 |
|
- C.F. Chan, J.W. Staples
LBL, Berkeley, California, USA
|
|
TH1-02 |
The Heavy Ion Linac for the CERN Lead Ion Facility
|
linac, emittance, ion, CERN |
654 |
|
- D.J. Warner
CERN, Geneva, Switzerland
|
|
TH1-04 |
An Accelerator Technology Legacy
|
linac, proton, target, drift-tube-linac |
664 |
|
- E.A. Heighway
LANL, Los Alamos, New Mexico, USA
|
|
TH-01 |
Cavity Construction and Low Power Tests of the INS Split Coaxial RFQ for Radioactive Nuclei
|
cavity, ion, linac, ITY |
689 |
|
- S. Arai, A. Imanishi, K. Niki, Y. Takeda, E. Tojyo, N. Tokuda
University of Tokyo, Tokyo, Japan
|
|
TH-02 |
RFQ Structure for Low Frequency and CW Operation
|
impedance, ion, TRIUMF, heavy-ion |
692 |
|
- P.G. Bricault, H.R. Schneider
TRIUMF, Vancouver, Canada
|
|
TH-03 |
Beam Tests of the ''Modified'' 34 MHz CW 4-Rod RFQ
|
ion, emittance, linac, ion-source |
695 |
|
- H. Fujisawa, T. Matsumoto, K. Nakao, M. Tamada
Nissin Electric Co. Ltd., Kyoto, Japan
- M. Inoue, Y. Iwashita, A. Noda
Kyoto University, Kyoto, Japan
|
|
TH-04 |
Status of the Heidelberg High Current Injector
|
ion, ion-source, impedance, cathode |
698 |
|
- M. Grieser, D. Habs, R. von Hahn, C.-M. Kleffner, V. Kößler, R. Repnow, D. Schwalm
Max-Planck Institut für Kernphysik, Heidelberg, Germany
- H. Deitinghoff, A. Schempp
IAP, Frankfurt-am-Main, Germany
- E. Jaeschke
BESSY GmbH, Berlin, Germany
- S. Papureanu
FZJ, Jülich, Germany
|
|
TH-05 |
Design of a New Type of Variable-Frequency RFQ Linac with a Folded-Coaxial Resonator (Oral Poster)
|
linac, ion, heavy-ion, impedance |
701 |
|
- O. Kamigaito, T. Chiba, A. Goto, M. Hemmi, M. Kase, S. Kohara, Y. Miyazawa, Y. Yano
RIKEN, Saitama, Japan
|
|
TH-06 |
Upgrade of the HLI-RFQ Accelerator (Oral Poster)
|
UNILAC, ion, emittance, GSI |
704 |
|
- J. Klabunde, E. Malwitz
GSI, Darmstadt, Germany
- J. Friedrich, A. Schempp
IAP, Frankfurt-am-Main, Germany
|
|
TH-08 |
Beam Dynamics Simulation in a Four-Rod RFQ
|
alignment, emittance, quadrupole, GSI |
710 |
|
- J. Klabunde, P. Spädtke
GSI, Darmstadt, Germany
- A.A. Kolomiets, S.G. Yaramishev
ITEP, Moscow, Russia
|
|
TH-09 |
Low Frequency High Duty Cycle Heavy Ion RFQ
|
ion, UNILAC, simulation, heavy-ion |
713 |
|
- V.A. Andreev, A.A. Kolomiets, S.G. Yaramishev
ITEP, Moscow, Russia
- J. Klabunde
GSI, Darmstadt, Germany
|
|
TH-10 |
An EBIS-Based Ion Injection for the AGS (Oral Poster)
|
ion, linac, electron, cavity |
716 |
|
- A. Kponou, J.G. Alessi, E. Beebe, J.M. Brennan, A. Herschcovitch, K. Prelec, D. Raparia
BNL, Upton, New York, USA
|
|
TH-11 |
Recent Performance of the LNS Four-Rod RFQ2 Acceleration of Gold and Xenon Beams
|
ion, acceleration, emittance, cavity |
719 |
|
- J.-L. Lemaire, P.-Y. Beauvais, P.-A. Chamouard, R. Ferdinand
CEN-Saclay, Gif-sur-Yvette, France
|
|
TH-12 |
Construction and Commissioning of the RFQ for the CERN Lead-Ion Facility
|
CERN, ion, linac, impedance |
722 |
|
- G. Bezzon, A. Lombardi, G. Parisi, A. Pisent, M. Weiss
INFN/LNL, Legnaro (PD), Italy
- P. Bourquin, A.M. Lombardi, M. Vretenar
CERN, Geneva, Switzerland
|
|
TH-13 |
Beam Transport Design for the Linac System in the INS Radioactive Beam Facility
|
ion, linac, emittance, beam-transport |
725 |
|
- K. Niki, S. Arai, Y. Hashimoto, H. Masuda, N. Tokuda, M. Tomizawa, K. Yoshida
University of Tokyo, Tokyo, Japan
|
|
TH-14 |
Performance Test of an 80 MHz RFQ Linac at TIT
|
linac, cavity, ion, acceleration |
728 |
|
- M. Okamura, T. Hattori, T. Ito, M. Okada, K. Sasa
Tokyo Institute of Technology, Tokyo, Japan
|
|
TH-15 |
The Matching Line Between the RFQ and the IH Linac of the CERN Lead Ion Facility
|
emittance, quadrupole, CERN, ion |
731 |
|
- A. Facco, A. Lombardi, A. Pisent, M. Weiss
INFN/LNL, Legnaro (PD), Italy
- A.M. Lombardi, W. Pirkl, M. Vretenar
CERN, Geneva, Switzerland
|
|
TH-16 |
Performances of the LEBT of the CERN Lead Ion Linac
|
emittance, solenoid, CERN, quadrupole |
734 |
|
- A. Lombardi, A. Pisent, M. Weiss
INFN/LNL, Legnaro (PD), Italy
- K. Langbein, A.M. Lombardi, E. Tanke, H.H. Umstätter
CERN, Geneva, Switzerland
|
|
TH-17 |
Input and Output Beam Matching for a RFQ where a Couple of Electrodes are at Ground Potential
|
ion, CERN, simulation, linac |
737 |
|
- M. Comunian, A. Pisent
INFN/LNL, Legnaro (PD), Italy
|
|
TH-18 |
Project of the Industrial Heavy Ion Linac for Particle Track Membranes (PTM) Production (Oral Poster)
|
ion, linac, heavy-ion, target |
740 |
|
- I.B. Barsukov, I.V. Chuvilo, V.V. Kushin, S.V. Plotnikov
ITEP, Moscow, Russia
|
|
TH-19 |
The IH Linac of the CERN Lead Injector
|
CERN, ion, linac, GSI |
743 |
|
- N. Angert, W. Bleuel, H. Gaiser, G. Hutter, E. Malwitz, R. Popescu, M. Rau, U. Ratzinger
GSI, Darmstadt, Germany
- Y. Bylinsky, H.D. Haseroth, H. Kugler, R. Scrivens, E. Tanke, D.J. Warner
CERN, Geneva, Switzerland
|
|
TH-20 |
Low-Frequency High-Current Spiral-RFQ Injectors
|
ion, emittance, UNILAC, GSI |
746 |
|
- A. Schempp, U. Bessler, H. Deitinghoff, A. Kipper, T. Sieber
IAP, Frankfurt-am-Main, Germany
- J. Klabunde, P. Spädtke
GSI, Darmstadt, Germany
|
|
TH-21 |
The VE-RFQ Injector for the Cyclotron at HMI
|
cyclotron, ion, injection, ECR |
749 |
|
- A. Schempp, H. Deitinghoff, O. Engels
IAP, Frankfurt-am-Main, Germany
- H. Homeyer, W. Pelzer
HMI, Berlin, Germany
|
|
TH-22 |
A Post Accelerator for a Radioactive Beam Facility at TRIUMF
|
ion, solenoid, linac, emittance |
752 |
|
- H.R. Schneider, P.G. Bricault, S. Koscielniak, T. Ries, L. Root
TRIUMF, Vancouver, Canada
|
|
TH-23 |
Reducing RFQ Longitudinal Emittance
|
emittance, acceleration, ion, heavy-ion |
755 |
|
- J.W. Staples
LBL, Berkeley, California, USA
|
|
TH-25 |
Beam Dynamics Design of the INS Split Coaxial RFQ for Radioactive Nuclei
|
emittance, cavity, multipole, linac |
762 |
|
- N. Tokuda, S. Arai
University of Tokyo, Tokyo, Japan
|
|
TH-29 |
Studies of a Superconducting RFQ for Legnaro
|
simulation, ion, SRF, superconducting-RF |
774 |
|
- G. Bisoffi, A. Lombardi, A. Pisent
INFN/LNL, Legnaro (PD), Italy
- V.A. Andreev
ITEP, Moscow, Russia
|
|
TH-45 |
RF-Focused Drift Tube Linac Structure (Oral Poster)
|
focusing, linac, acceleration, cavity |
804 |
|
- D.A. Swenson
Linac Systems, Waxahachie, Texas, USA
|
|
TH-55 |
Improvement and Application of the Beijing Proton Linac (Oral Poster)
|
proton, controls, neutron, linac |
828 |
|
- S.H. Wang, D.M. Kong, Z.H. Luo, J.M. Qiao, H.S. Zhang
IHEP Beijing, Beijing, China
|
|
TH-60 |
Energy Selective Intense Neutron Source
|
neutron, linac, ion, target |
842 |
|
- M. Sugimoto, K. Noda
JAERI/Tokai, Ibaraki-ken, Japan
|
|
TH-64 |
Pulsed Beam Current Monitor with a Toroidal Coil
|
impedance, linac, electron, proton |
854 |
|
- H. Dewa, H. Fujita, M. Ikegami, M. Inoue, Y. Iwashita, S. Kakigi, M. Kando, A. Noda, H. Okamoto, T. Shirai
Kyoto University, Kyoto, Japan
|
|
TH-85 |
Emittance Monitor with View Screen and Slits
|
emittance, linac, proton, ion |
908 |
|
- T. Shirai, H. Dewa, H. Fujita, M. Ikegami, M. Inoue, Y. Iwashita, S. Kakigi, M. Kando, A. Noda
Kyoto University, Kyoto, Japan
|
|