Title |
Other Keywords |
Page |
The 19 GeV e+ -- e- Storage Ring PETRA |
injection, luminosity, positron, vacuum |
2970 |
|
|
The Cern Proton-Antiproton Colliding Beam Facilities |
acceleration, antiproton, luminosity, stochastic cooling |
2974 |
- R. Billinge, M.C. Crowley-Milling
|
|
Particle Accelerators in Cancer Therapy - Current Status and Overview of the Planned Program for Heavy Particle Therapy |
accelerator, neutron, photon, radiation |
2992 |
|
|
Progress Report on Testing of a 100-kV, 125-mA Deuteron Injector |
emittance, field, ion, radiation |
3009 |
- D.D. Armstrong, E.A. Meyer, H.L. Rutkowski, J.D. Schneider
|
|
Electron Model Experiment to Study Instabilities in Long Periodic Focusing Systems for Intense Beams |
field, focusing, solenoid, space-charge |
3026 |
- M. Reiser, M.A. Brennan, W. Namkung
|
|
Bunched Beam Neutralization |
bunching, ion, plasma, proton |
3029 |
- G.M. Gammel, A.W. Maschke, R.M. Mobley
|
|
Transport Experiments with Neutralized and Space Charge Dominated Denutralized 2 mA 80 keV Xe+1 Beams |
background, field, ion, vacuum |
3042 |
- M.G. Mazarakis, R.J. Burke, E.P. Colton, S. Fenster, J.S. Moenich, D.K. Nikfarjam, D.W. Price, N.Q. Sesol, J.M. Watson
|
|
Tests of the Intense Neutron Source (INS) Prototype |
accelerator, ion, target, vacuum |
3055 |
- D.D. Armstrong, C.R. Emigh, J.C. Hyde, E.A. Meyer, J.D. Schneider
|
|
Pion Beam Development for the LAMPF Biomedical Project |
field, pion, proton, target |
3071 |
- M. Paciotti, H. Amols, J. Bradbury, K. Hogstrom, H. Inoue, D. Laubacher, O. Rivera, S. Sandford, A. Smith
|
|
A 100-mA Low-Emittance Ion Source for Ion-Beam Fusion |
cathode, extraction, ion, optics |
3101 |
- R.P. Vahrenkamp, R.L. Seliger
|
|
Gabor Lenses |
background, emittance, field, ion |
3112 |
- R.M. Mobley, G. Gammel, A.W. Maschke
|
|
Progress in Space Charge Lens Development |
field, ion, proton, vacuum |
3115 |
|
|
Invited Paper-On the Status of Accelerator Facilities and Their Progress in Japan |
accelerator, booster, linac, synchrotron |
3124 |
|
|
Operating Experience with MUSL-2 |
accelerator, coupling, linac, microtron |
3143 |
- P. Axel, L.S. Cardman, H.D. Graef, A.O. Hanson, R.A. Hoffswell, D. Jamnik, D.C. Sutton, R.H. Taylor, L.M. Young
|
|
Acceleration of Polarized Electronics in the 2.5 GeV Synchrotron at Bonn |
acceleration, polarization, resonance, synchrotron |
3146 |
- W. Brefeld, V. Burkert, E. Ehses, M. Hofmann, D. Husmann, G. Knop, W. Paul, H.R. Schaefer, W. von Drachtenfels
|
|
Initial Operation of the Fermilab Antiproton Cooling Ring |
electron cooling, injection, kicker, vacuum |
3158 |
- D.B. Cline, J.C. Gannon, E.R. Gray, J. Griffin, F.R. Huson, D.E. Johnson, W. Kells, P. McIntyre, F.E. Mills, C.D. Moore, L. Oleksiuk, T.G. Rhoades, M.F. Shea, D.E. Young
|
|
ALFA, Feasibility Study of an Electron Pulse Stretcher to Increase the Duty Factor of the Frascati Linac |
emittance, extraction, injection, linac |
3164 |
- S. Guiducci, G. Martinelli, M.A. Preger
|
|
A High Flux Muon Channel Incorporating a High Quality Spectrometer Field |
acceptance, field, muon, target |
3194 |
|
|
The Electron Beam for the Fermilab Electron Cooling Experiment |
field, gun, proton, solenoid |
3237 |
- W.B. Herrmannsfeldt, W. Kells, P.M. McIntyre, F. Mills, J. Misek, L. Oleksiuk
|
|
The Stanford Superconducting Recyclotron |
accelerator, emittance, field, linac |
3246 |
- C.M. Lyneis, M.S. McAshan, R.E. Rand, H.A. Schwettman, T.I. Smith, J.P. Turneaure
|
|
Superconducting Accelerating Cavities for High Energy e+ - e- - Storage Rings |
coupling, field, radiation, synchrotron |
3252 |
- W. Bauer, A. Brandelik, A. Citron, W. Lehmann, L. Szecsi, M. Yoshioka
|
|
Electron-Proton Colliding Beams at Fermilab |
booster, lifetime, luminosity, radiation |
3258 |
|
|
A Superconducting Proton Storage Ring for PEP |
booster, injection, luminosity, proton |
3261 |
- A.A. Garren, E.L. Molishever, J.M. Peterson, R.C. Sah
|
|
An Electron Beam Spectrum Monitor using Synchrotron Light |
accelerator, radiation, spectrum, synchrotron |
3297 |
- D. Reagan, T.E. Hostetler
|
|
Electron Beam Diagnostic in the Fermilab Electron Cooling Experiment |
electron cooling, field, gun, laser |
3300 |
|
|
Proton Beam Diagnostics in the Fermilab Electron Cooling Experiment |
accelerator, injection, proton, vacuum |
3302 |
- D.B. Cline, C.D. Curtis, E.R. Gray, K. Jankowski, D.E. Johnson, W. Kells, F.E. Mills, M.F. Shea
|
|
A Noninteractive Beam Position and Size Monitor for Heavy Ions |
background, field, ion, ionization |
3349 |
|
|
Test of SEC Stability in High Flux Proton Beams |
accelerator, extraction, proton, vacuum |
3355 |
- V. Agoritsas, R.L. Witkover
|
|
Beam Position Monitor using a Single Cavity |
accelerator, beam position monitor, field, vacuum |
3423 |
|
|
High Energy Electron Beam Cooling to Improve the Luminosity and Lifetime in Colliding Beam Machines |
damping, emittance, proton, wiggler |
3472 |
- D. Cline, A. Garren, H. Herr, F.E. Mills, C. Rubbia, A. Ruggiero, D. Young
|
|
Estimate of Spin Polarization for the Electrom Storage Rings SPEAR and PEP |
field, polarization, resonance, synchrotron |
3482 |
|
|
Measurement of Momentum Cooling Rates with Electron Cooling at NAP-M |
accelerator, damping, electron cooling, proton |
3487 |
- V.V. Parchomchuk, D.V. Pestrikov, A.C. Ruggiero
|
|
A Computer Code for the Calculation of Beam Stability in Circular Electron Machines |
equilibrium, impedance, spectrum, vacuum |
3514 |
- A. Hofmann, K. Hübner, B. Zotter
|
|
Optimization of Luminosity for e-p Collisions |
insertion, luminosity, proton, tune |
3520 |
|
|
Energy Losses of an Electron Bunch Moving Along the Axis of a Circular Waveguide with Periodically Perturbed Wall |
accelerator, field, radiation, waveguide |
3523 |
- M. Chatard-Moulin, A. Papiernik
|
|
Simulation Measurement of Bunch Excited Fields and Energy Loss in Vacuum Chamber Components and Cavities |
impedance, kicker, timing, vacuum |
3583 |
- M.G. Billing, J.M. Kirchgessner, R.L. Sundelin
|
|
Synchrobetatron Oscillation Driving Mechanism |
betatron, damping, field, synchrotron |
3604 |
|
|
PEP II RF System |
bunching, injection, proton, synchrotron |
3621 |
|
|
Invited Paper- Recent Advances in Design for Low- and Medium-Energy Heavy Ion Accelerators |
accelerator, cyclotron, field, ion |
3645 |
|
|
Status of the E.C.R. Heavy Ion Source and its Interfacing with Cyclone |
cyclotron, field, injection, plasma |
3677 |
- Y. Jongen, C. Pirart, G. Ryckewaert, J. Steyaert
|
|
An ECR-Type Light Ion Source for the Karlsruhe Isochronous Cyclotron |
field, ion, plasma, vacuum |
3680 |
- V. Bechtold, H.P. Ehret, L. Friedrich, J. Mollenbeck, H. Schweickert
|
|
Charge Changing Cross Sections for Heavy Ions at Energies to 8.5 MeV/amu |
background, ion, residual gas, vacuum |
3686 |
- J. Alonso, D. Dietrich, H. Gould
|
|
Calculations Pertaining to the Design of a Prebuncher for a 150-MeV Electron Linear Accelerator: II Radial Motion |
accelerator, cathode, electron gun, field |
3695 |
- R.G. Alsmiller, Jr., F.S. Alsmiller, J. Barish
|
|
A Single-Cavity Double-Frequency Buncher |
bunching, field, linac, proton |
3705 |
- S.O. Schriber, D.A. Swenson
|
|
CRYEBIS, a Multi-Purpose EBIS for the Synchrotron Saturne II |
ion, ionization, solenoid, synchrotron |
3713 |
- J. Arianer, A. Cabrespine, G. Deschamps, C. Goldstein
|
|
Performance of a Superconducting Accelerator Structure with a Modified Geometry |
accelerator, field, multipacting, simulation |
3755 |
- C.M. Lyneis, J. Sayag, H.A. Schwettman, J.P. Turneaure
|
|
Dependence of Multi-Pass Beam Breakup on Accelerator Parameters |
acceleration, accelerator, injection, recirculation |
3757 |
- A.M. Vetter, C.M. Lyneis, H.A. Schwettman
|
|
Experimental and Calculated RF Properties of the Disk-and-Washer Structure |
accelerator, coupling, field, proton |
3763 |
- J.M. Potter, F.J. Humphry, S.O. Schriber
|
|
The 500 MeV Intense Positron Source of the Saclay Linac |
acceleration, ferrite, positron, target |
3773 |
- B. Aune, M. Juillard, F. Netter
|
|
Design and Status of an Experimental Superconducting Linear Accelerator for Electrons |
accelerator, field, impedance, multipacting |
3775 |
- G. Arnolds, H. Heinrichs, R. Mayer, N. Minatti, H. Piel, W. Weingarten
|
|
Invited Paper- Synchrotron Radiation Sources |
brightness, photon, radiation, synchrotron |
3785 |
|
|
Invited Paper- The Free Electron Laser and its Possible Developments |
field, laser, radiation, wiggler |
3791 |
|
|
Design Status of the 2.5 GeV National Synchrotron Light Source X-Ray Ring |
betatron, synchrotron, vacuum, x-ray |
3806 |
- S. Krinsky, J. Bittner, L. Blumberg, J. Galayda, R. Heese, J.C. Schuchman, A. van Steenbergen
|
|
Modeling of Horizontal Wiggler in an Electron Storage Ring |
accelerator, field, synchrotron, wiggler |
3824 |
|
|
Free Electron Laser Amplifier Operation in Storage Ring |
field, laser, synchrotron, wiggler |
3827 |
|
|
A Free Electron Laser Experiment |
field, laser, radiation, waveguide |
3830 |
- H. Bohmer, M.Z. Caponi, J. Munch
|
|
Simulations of Free Electron Laser |
field, instability, laser, radiation |
3833 |
|
|
LEDA-F Storage Ring Dedicated to the Free Electron Laser Operation, Preliminary Design |
field, laser, synchrotron, wiggler |
3836 |
- R. Barbini, G. Dattoli, T. Letardi, A. Marino, A. Renieri, G. Vignola
|
|
SURF'S Up at NBS: A Progress Report |
betatron, field, radiation, synchrotron |
3845 |
|
|
Installation and Thermal Design of Synchrotron Radiation Beam Ports at SPEAR |
radiation, synchrotron, thermal, vacuum |
3851 |
- C. Jako, N. Hower, T. Simon
|
|
Thermal Design of Synchrotron Radiation Exit Ports at CESR |
radiation, synchrotron, thermal, vacuum |
3854 |
- D.M. Mills, B.W. Batterman, D.H. Bilderback
|
|
A Beam Position Stabilization System |
background, brightness, instability, instrumentation |
3857 |
|
|
Invited Paper- Induction Linear Accelerators and Their Applications |
accelerator, impedance, induction, ion |
3870 |
|
|
Invited Paper- Advances in High-Power RF Amplifiers |
accelerator, bunching, cw, klystron |
3877 |
|
|
Strong Rare Earth Cobalt Quadrupoles |
field, fringe fields, quadrupole, vacuum |
3882 |
|
|
The Trirotron |
cathode, coupling, field, waveguide |
3891 |
- J. V. Lebacqz, A.J. Dudas, W.R. Fowkes
|
|
An 800-MeV Spin Precessor for Polarized H- Beams using H- to H0 Stripping |
field, injection, polarization, proton |
3992 |
|
|
Distributed Sputter-Ion Pumps for use in Low Magnetic Fields |
field, injection, ion, vacuum |
3997 |
|
|
Bakeable Aluminium Vacuum Chamber and Bellows with an Aluminium Flange and Metal Seal for Ultrahigh Vacuum |
booster, coupling, proton, vacuum |
4000 |
- H. Ishimaru, G. Horikoshi, K. Minoda
|
|
Stripping Foils for Multiturn Charge Exchange Injection into the Fermilab Booster |
booster, emittance, injection, scattering |
4009 |
- C. Hovjat, M. Joy, R.C. Webber
|
|
Measurement of the Electron Loss Cross Sections for Negative Hydrogen Ions on Carbon at 200 MeV |
accelerator, booster, field, injection |
4012 |
|
|
Computer Modeling of the Gyrocon |
electron gun, field, gun, space-charge |
4015 |
- P.J. Tallerico, J.E. Rankin
|
|
Factors Determining the Choice of the Beam Tuber Material and the Vacuum Chamber Design for a Superconducting High Energy Storage Accelerator |
accelerator, bunching, thermal, vacuum |
4042 |
- J. Aggus, D. Edwards, Jr., H.J. Halama, J. Herrera
|
|
Twenty-Million Watt Vacuum Tube and Test Results |
ion, plasma, plasma physics, vacuum |
4069 |
- D. Carter, A. Deitz, J. Eshleman, R. Gray, J. Stabley, R. Winje
|
|
The Design and Construction of Transparent Vacuum Chambers for Interaction Areas of Colliding Beam Machines |
acceptance, background, radiation, vacuum |
4083 |
- J.C. Brunet, J.C. Godot, C. Hauviller, W. Jeker, A. Poncet, I. Wilson
|
|
Neutral Molecule Desorption from SS(304) and A1(6061) due to Particle Bombardments |
ion, proton, sputter, vacuum |
4089 |
|
|
Operational Experiences with Coupled-Cavity Structures in a High Duty Factor Accelerator |
accelerator, field, resonance, software |
4108 |
- G.E. McMichael, J. McKeown
|
|
Measurements of Superconducting Niobium Cavities at 700 MHz |
coupling, field, multipacting, x-ray |
4114 |
- K. Yoshida, J. Halbritter, M. Yoshioka
|
|
One Nanosecond Pulsed Electron Gun Systems |
accelerator, cathode, gun, injection |
4129 |
|
|
The New ISR Absorber Blocks for High Intensity Beams |
proton, radiation, thermal, vacuum |
4134 |
|
|
High Resolution Digital Time Base |
accelerator, synchrotron, timing, tune |
4152 |
|
|
Invited Paper- Current Status of Collective Accelerators |
acceleration, accelerator, field, ion |
4156 |
|
|
Invited Paper- Intense Particle Beams |
field, ion, plasma, target |
4160 |
|
|
Invited Paper- Multimegawatt Neutral Beams for Tokamaks |
injection, ion, plasma, target |
4166 |
|
|
Status Report of the Experimental and Theoretical Investigations in the Garching Electron Ring Accelerator |
cathode, field, impedance, instability |
4172 |
- C. Andelfinger, W. Dommaschk, J. Fink, W. Herrmann, I. Hofmann, D. Jacobi, P. Merkel, H.B. Schilling, U. Schumacher, M. Ulrich
|
|
Experimental Studies of Heavy Ion Collective Acceleration at the University of Maryland |
acceleration, ion, plasma, target |
4177 |
- W.W. Destler, L. Floyd, M. Reiser
|
|
The Experimental Test Accelerator (ETA) |
accelerator, cathode, gun, induction |
4180 |
- R.E. Hester, D.G. Bubp, A.W. Chesterman, J.C. Clark, E.G. Cook, W.L. Dexter, A.A. Faltens, T.J. Fessenden, L.L. Reginato, T.T. Yokota
|
|
Operation of a Repetitively Pulsed 300kV, 10kA Electron Beam Diode |
cathode, field, impedance, vacuum |
4183 |
|
|
The C.P.A. (A Collective Particle Accelerator) |
acceleration, field, injection, solenoid |
4186 |
|
|
An Electron Accelerator using a Laser |
field, laser, photon, plasma |
4188 |
|
|
Collective Ion Acceleration Produced by Injecting a Rotating Relavistic Electron Beam into Neutral Hydrogen |
acceleration, field, plasma, proton |
4193 |
- J.D. Sethian, R.A. Mahaffey, R.A. Meger, D.N. Spector
|
|
Acceleration Mechanisms in Single and Multiple Stage Collective Vacuum Diodes |
acceleration, ion, plasma, proton |
4196 |
- J.L. Adamski, J.R. Beymer, R.L. Copeland
|
|
Collective Ion Acceleration Controlled by a Gas Gradient |
acceleration, cathode, ion, plasma |
4199 |
- F. Mako, A. Fisher, C.W. Roberson, N. Rostoker, D. Tzach
|
|
Electron Beams Generated in Foilless Diodes |
cathode, field, plasma, space-charge |
4202 |
|
|
Equilibrium and Destruction of a REB in a Magnetic Guide |
equilibrium, field, gun, plasma |
4205 |
- N. Kobayashi, S. Kawasaki, A. Miyahara
|
|
Pulserad 445W, A Compact High-Power Beam Generator |
cathode, field, impedance, vacuum |
4208 |
- J. Benford, B.H. Bernstein, J.A. Berry, D.E. Osias
|
|
A Three Megavolt Transformer for PFL Pulse Charging |
coupling, dielectric, field, resonance |
4211 |
|
|
High Flux Ion, and Odd Multi-Half-Wave Length Resonant Transformer Accelerators in the Space and Time Domains |
accelerator, field, instability, ion |
4214 |
|
|
Lasers and Accelerators |
accelerator, cyclotron, field, laser |
4217 |
|
|
High Current Linear Ion Accelerators Utilizing Electron Neutralization |
acceleration, field, ion, plasma |
4220 |
- S. Humphries Jr., G.W. Kuswa, C.W. Mendel, J.W. Poukey
|
|
Proton Injection into a Large Amplitude Space Charge Wave |
acceleration, injection, ion, proton |
4223 |
- R.J. Adler, G. Gammel, J.D. Ivers, J.A. Nation, G. Providakes, V. Serlin
|
|
Collective Ion Acceleration with an Intense REB in a Periodic Waveguide |
acceleration, accelerator, field, ion |
4229 |
- C.W. Roberson, P. Sprangle, C.M. Tang
|
|
Electron Ring Accelerator Research at the University of Maryland |
acceleration, field, focusing, resistive wall |
4234 |
- C.D. Striffler, J. Grossman, R.A. Meger, E. Papas, M. Reiser, M.J. Rhee, T.F. Wang
|
|
The NRL Autoaccelerator Concept |
acceleration, field, impedance, x-ray |
4237 |
- T.R. Lockner, M. Friedman
|
|
A Computational Study of One Aspect of Autoresonant Acceleration |
acceleration, cyclotron, field, simulation |
4239 |
- W.R. Shanahan, R.J. Faehl, B.B. Godfrey
|
|
Computational Studies of Beam Dynamics in the ETA Gun |
cathode, field, lattice, simulation |
4242 |
|
|
Collective Ion Acceleration in the Vacuum System with Insulated Anode |
acceleration, cathode, ion, neutron |
4248 |
- V.M. Bistritsky, A.N. Didenko, Ya.E. Krasik, V.S. Lopatin, V.I. Podkatov
|
|
Invited Paper- The Next Generation of Accelerators |
field, luminosity, positron, proton |
4261 |
|
|
Observation of Beam-Beam Effects in PETRA |
betatron, damping, luminosity, tune |
4268 |
|
|
Autoacceleration via Virtual Cathode Oscillation |
acceleration, cathode, field, injection |
4274 |
|
|
The Multipactor Effect |
accelerator, field, proton, scattering |
4280 |
|
|
The Osaka University Linac |
field, gun, linac, waveguide |
4283 |
- S.R. Farrell, W.J. Gallagher, R.A. Hartline
|
|
Reutilization Potential of Accelerator Components: A Decommisioning Perspective |
accelerator, linac, proton, synchrotron |
4286 |
- J.H. Opelka, G.J. Marmer, R.L. Mundis, J.M. Peterson, B. Siskind
|
|
A Compact Standing-Wave Electron Linac with RF Drive System using 3 dB Hybrid Junction |
accelerator, coupling, field, linac |
4292 |
- V.F. Vikulov, V.E. Kalyuzhny, V.I. Kaminsky, N.N. Nechaev, V.V. Ruzin, N.P. Sobenin, V.V. Stepov, A.A. Zavadtsev, B.V. Zverev
|
|
The Sensitivity of Microwave Bipolar Transistors and Amplifiers to Ionizing Radiation |
field, irradiation, radiation, x-ray |
4298 |
- I. Thomson, M.B. Christensen, M.H. Gibson, G.J.G. Janssens
|
|
Regularization in Fourier-Synthesis 2-D Image Reconstruction |
|
4327 |
- E. Levitan, J. Degani, J. Zak
|
|