Title |
Other Keywords |
Page |
Computer Control of High Energy Accelerators |
field, injection, synchrotron, timing |
1 |
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|
Linac Alignment Techniques |
alignment, laser, light source, target |
9 |
|
|
The Application of a Digital Computer to the Control and Monitoring of a Proton Linear Accelerator |
controls, monitoring, proton, timing |
21 |
- T.M. Putnam, R.A. Jameson, T. M. Schultheis
|
|
Electronic Instrumentation and Control at the Princeton-Pennsylvania Accelerator |
chopper, injection, simulation, vacuum |
31 |
- J. Riedel, T. F. Droege, C.L. Kang, J. Kirchgessner
|
|
Multiplex Control and Monitoring of a Large Accelerator |
alignment, electron, monitoring, vacuum |
36 |
|
|
Precision Phase Adjustment of a Linear Accelerator High Power Waveguide Feed Network |
impedance, klystron, modulator, waveguide |
39 |
- R. Alvarez, R. Borghi, J. Weaver
|
|
Instrumentation and Controls for the Stanford Linear Accelerator |
controls, instrumentation, klystron, radiation |
44 |
|
|
Accelerator Alignment - A Problem in Feedback-Control Systems |
alignment, radiation, survey, vacuum |
48 |
|
|
The Effect of Accelerator Parameters on Mechanical Tuning of rf Cavities |
acceleration, field, radiation, rf cavities |
65 |
|
|
A Synchronization Pulse for the Princeton-Pennsylvania Accelerator |
Van de Graaff, field, injection, proton |
74 |
- M. Awschalom, M. V. Isaila, F.C. Shoemaker
|
|
Grid-Controlled Power Tubes in Particle-Accelerator Applications |
electron, linac, modulator, vacuum |
76 |
|
|
High Power Klystrons |
field, focusing, gun, klystron |
86 |
|
|
A Comparison of Triodes and Klystrons for Particle Accelerator Applications |
field, klystron, modulator, synchrotron |
96 |
- A. J. Morris, C. A. Martin-Vegue
|
|
Design, Construction, and Testing of RF Structures for a Proton Linear Accelerator |
coupling, field, impedance, proton |
118 |
|
|
Design of the RF Phase and Amplitude Control System for a Proton Linear Accelerator |
damping, field, proton, resonance |
138 |
- R.A. Jameson, N. A. Lindsay, T.F. Turner
|
|
Electron Analog Tests of Proton Linear Accelerator Structure |
chopper, electron, field, gun |
144 |
- J. E. Brolley, Jr., C. R. Emigh, D. W. Mueller
|
|
A Proposed AGS Accelerating Cavity |
ferrite, impedance, injection, tune |
148 |
|
|
High-Power Test on a Cloverleaf Cavity |
impedance, vacuum, waveguide, x-ray |
156 |
- J. R. Parker, J. D. Doss, R. W. Freyman, E.A. Knapp, W. J. Shlaer
|
|
Resonantely Coupled Accelerating Structures for High-Current Proton Linacs |
coupling, field, impedance, proton |
159 |
- B. C. Knapp, E.A. Knapp, G.J. Lucas, J.M. Potter
|
|
An 805-Mc, 1 1/4 - MW Amplifier for Accelerator Service |
factory, modulator, proton, waveguide |
166 |
- D.C. Hagerman, J. D. Doss, R. W. Freyman, J. R. Parker
|
|
The Amplitron as a High Power, Efficient, RF Power Source for Long Pulse, High Resolution Linear Accelerators |
cathode, cw, modulator, vacuum |
169 |
|
|
Window Materials Design and Properties for Use in High Power Klystrons |
dielectric, field, klystron, thermal |
180 |
- R. W. Bierce, W.R. Fowkes, J. H. Jasberg
|
|
Ferrite Measurements for Synchrotron RF Accelerating System Design |
ferrite, field, resonance, tune |
185 |
- Q.A. Kerns, J.E. Katz, G.S. Tool
|
|
Accurate Field Level and Phase Control and Monitoring for a Proton Linear Accelerator |
field, impedance, monitoring, proton |
195 |
- K. Batchelor, G. Gallagher-Daggitt
|
|
High Power UHF Components for DESY |
acceleration, klystron, vacuum, waveguide |
208 |
|
|
Triodes and Klystrons at Ultra-High Frequency |
electron, klystron, proton, vacuum |
222 |
|
|
Dynamitrons of the Future |
acceleration, coupling, ion, proton |
227 |
|
|
Tandem Accelerators of the Future |
acceleration, electron, injection, ion |
235 |
|
|
Ion-Gas Collisions during Beam Acceleration |
electron, ion, ionization, spectrum |
242 |
|
|
The Tandem as a Heavy Ion Accelerator |
field, ion, target, vacuum |
251 |
- P.H. Rose, K.H. Purser, A. B. Wittkower
|
|
A Source of He++ Ions for a Van de Graaff Accelerator |
Van de Graaff, acceleration, field, ion |
257 |
|
|
A 14 MeV Neutron Source Capable of Delivering a 1000 Rad Dose Uniformly Over a 6x6 - Foot Area |
deuteron, ion, neutron, target |
262 |
- A. A. Fleischer, N. E. Jorgensen, R. F. Nissen, D.K. Wells, F.C. Younger
|
|
Sulphur Hexafluoride - Its Properties and Use as a Gaseous Insulator in Van de Graaff Accelerators |
Van de Graaff, dielectric, field, thermal |
266 |
- P. G. Ashbaugh, M. F. James, D. W. McAdam
|
|
Electron Accelerators for Electron Microscopy in the 1 MeV Range |
electron, electron gun, field, gun |
270 |
- G. Reinhold, H. Adler, R. Minkner
|
|
A New Low Energy Heavy Ion Accelerator |
emittance, ion, radiation, target |
282 |
- R. Laubert, N. Wotherspoon
|
|
The Symmetrical Cascade Rectifier: An Accelerator Power Supply in the Megavolt and Milliampere Range |
coupling, field, ion, target |
288 |
- G. Reinhold, J. Bill, K. Truempy
|
|
Stabilized High Voltage DC Power Supplies of the Sheilded Design |
coupling, damping, ion, irradiation |
293 |
- G. Reinhold, R. Minkner, K. Truempy
|
|
Energy Regulation of a 3 Mv Van de Graaff Positive Ion Accelerator by Modulation of the Ion Source Dark Current |
Van de Graaff, feedback, ion, proton |
296 |
- M. V. Isaila, H. L. Allen
|
|
Ion Pump Operation on 5.5 Me V and 12MeV Van de Graaff Accelerator |
Van de Graaff, ion, proton, vacuum |
299 |
|
|
A High Efficiency Ion Optical System for Tandem Accelerators |
acceptance, field, injection, ion |
313 |
- N.B. Brooks, R. P. Bastide, K.H. Purser, M. Roos, P.H. Rose, A. B. Wittkower
|
|
Magnet Design in High- Energy Accelerators |
field, focusing, injection, synchrotron |
317 |
|
|
Magnet Exciting Coils |
cooling water, electron, quadrupole, vacuum |
344 |
|
|
Frequency Dependence of the Resistance and Inductance of Solid Core Magnets |
electron, field |
349 |
- G. Gonzalez, A. Brambilla
|
|
Synchrotron - Magnet Cost Studies |
field, power-supply, proton, synchrotron |
354 |
- C. G. Dols, R. A. Kilpatrick
|
|
A High Field Magnet for the Alternating-Gradient Synchrotron |
field, vacuum |
359 |
|
|
Measurement and Shaping of the Fringing Fields of the Princeton-Pennsylvania Accelerator Magnets |
field, focusing, proton, synchrotron |
401 |
- M. Awschalom, M. V. Isaila, P. J. Reardon, F.C. Shoemaker
|
|
Measurement of the Magnetic Median Surface of the Princeton-Pennsylvania Accelerator |
field, injection, pick-up, vacuum |
405 |
|
|
Computer Calculations of the Magnetic Field of Alternating Gradient Synchrotron Magnets |
field, injection, septum, synchrotron |
408 |
- P. F. Dahl, R.S. Christian, G. Parzen
|
|
Variable Mode Solid State Magnet Cycle Timer |
field, monitoring, proton, timing |
427 |
|
|
High Repition Rate Pulsers for Beam Switching Magnets |
electron, field, impedance, vacuum |
430 |
- J.L. Cole, I. C. Lutz, J. J. Muray
|
|
Machine Operation at the Brookhaven Alternating Gradient Synchrotron |
field, ion, synchrotron, target |
439 |
- R. R. Adams, W. F. Gefers, J. Spiro
|
|
Practical Operating Problems at the RPI Linac |
klystron, linac, maintenance, waveguide |
449 |
- R. Krasse, R. Browne, R. Fullwood
|
|
A Comparison of Theoretical and Actual Beam Performance of a 140 MeV Electron Linear Accelerator at the University of Saskatchewan |
electron, field, injection, waveguide |
457 |
|
|
Positron Production with the USNRL Linac |
electron, linac, positron, spectrum |
462 |
|
|
A Positron Linear Accelerator Design |
electron, emittance, positron, solenoid |
465 |
|
|
A Storage Ring for 10 BeV Muons |
acceptance, betatron, muon, target |
470 |
|
|
Comparison of Colliding and Single Beam Proton Accelerators |
equilibrium, field, proton, site |
476 |
|
|
An Accelerator for Isotope Conversion - The Recycle Accelerator |
betatron, equilibrium, injection, target |
479 |
- M.S. Zucker, B. Manowitz, M. Steinberg
|
|
Proposed High Intensity, High Energy Cyclotron for Light and Heavy Ions |
cyclotron, extraction, field, ion |
484 |
- J.J. Livingood, K.W. Johnson, T.K. Khoe, G.S. Mavrogenes, W. J. Ramler, R. A. Winje
|
|
A Waveguide Resonant Ring Electron Accelerator |
coupling, electron, field, waveguide |
494 |
|
|
Injector and Waveguide Design Parameters for a High-Energy Electron-Positron Linear Accelerator |
chopper, field, injection, waveguide |
499 |
|
|
Use of an Isochronus Cyclotron for Neutron Time-of-Flight Experimentation |
bunching, cyclotron, klystron, neutron |
512 |
- H.A. Howe, M. Reiser, A. Svanheden
|
|
Power System Operation at the Cambridge Electron Accelerator |
electron, maintenance, tune, vacuum |
517 |
|
|
Flexibility in Accelerator Engineering Housing |
cyclotron, electron, shielding, site |
535 |
|
|
Controlling Accelerator Engineering Costs |
|
540 |
|
|
A Hypervelocity Microparticle Linear Accelerator for Use in Micrometeoric Simulation |
field, focusing, ion, vacuum |
544 |
|
|
Beam Instabilities in Circular Accelerators |
field, instability, proton, space-charge |
550 |
|
|
Analysis of Longitudinal Accelerator Instabilities |
injection, instability, plasma, vacuum |
561 |
|
|
Beam Loading in Linear Accelerators |
beam-loading, electron, field, waveguide |
566 |
|
|
Beam Dynamics Problems in a High Energy Electron Linac |
electron, field, focusing, positron |
580 |
|
|
Study of Some Transversal Motions of the Electron Beam of a Linac |
electron, field, focusing, linac |
593 |
|
|
Computer Program for High-Current Electron Accelerator |
electron, feedback, field, waveguide |
613 |
|
|
Optimization of Magnetic Lenses for Waveguide Portion of a Proton Linac |
acceptance, field, proton, waveguide |
617 |
|
|
Electrical Behavior of Long Linac Tanks and a New Tank-Coupling Scheme |
alignment, coupling, linac, proton |
623 |
- B. C. Knapp, E.A. Knapp, G.J. Lucas, D.E. Nagle, J.M. Potter
|
|
Calculation of Space Charge Effects in Beam Transport |
acceleration, acceptance, emittance, field |
634 |
|
|
Beam Dynamical Calculations with Realistic Fields in a Drift Tube Linear Accelerator |
acceptance, emittance, field, quadrupole |
639 |
|
|
A Sloan-Lawrence Accelerator with Self-Focusing Accelerating Structure |
focusing, injection, ion, quadrupole |
652 |
|
|
Induced Radioactivity and Remote Handling Methods for Accelerators |
coupling, radioactivity, shielding, target |
656 |
|
|
Proposed Remote Handling Methods for a Modified AGS |
feedback, maintenance, radiation, shielding |
668 |
|
|
Residual Radiation Studies |
proton, radiation, spallation, target |
673 |
- C.B. Fulmer, M. Barbier, K.S. Toth
|
|
Radioactive Gas Production from the R. P. I. Electron Linear Accelerator |
electron, linac, radiation, target |
678 |
- J. E. Russell, R. M. Ryan
|
|
Effect of Nuclear Radiation on Magent Insulation in High-Energy Accelerators |
irradiation, radiation, thermal, vacuum |
683 |
|
|
Microwave and Fast-Acting Valves and Vacuum Couplings for Accelerators |
klystron, radiation, vacuum, waveguide |
694 |
- A. L. Eldredge, R. J. Allyn, M. Heinz, A. J. Keicher
|
|
The Stanford Two-Mile Linear Accelerator Vacuum System |
field, klystron, vacuum, waveguide |
699 |
|
|
Radiation Measurement Work at the Princeton-Pennsylvania Accelerator |
neutron, radiation, shielding, synchrotron |
708 |
- M. Awschalom, F.L. Larsen
|
|
Shielding Doors |
cyclotron, radiation, shielding, solenoid |
712 |
- L. R. Glasgow, J. M. Haughian
|
|
An Accelerator Radiation Protection System |
field, ion, ionization, radiation |
718 |
- G. F. Wells, W. E. Lingar
|
|
Servo System for Automatic Dose Control |
insertion, monitoring |
725 |
- C. J. Murphy, R. D. Cooper, R. A. Meyer
|
|
Design Concepts of Modern Accelerator Vacuum Systems - Prediction vs. Experimental Data |
ionization, radiation, synchrotron, vacuum |
734 |
- F. S. Reinath, D.T. Scalise
|
|
Accelerator Vacuum Problems: In-Line Oil Trapping Between the Stanford Linear Accelerator and the Beam Switchyard |
injection, ion, vacuum, waveguide |
740 |
|
|
Fast All-Metal Six-Inch Valve |
acceleration, deceleration, radiation, vacuum |
743 |
|
|
Developments in Gridded Ion Lenses |
brilliance, electron, focusing, ion |
765 |
|
|
High Voltage Technology |
acceleration, dielectric, field, vacuum |
780 |
|
|
Survey of Injection-System Design |
betatron, injection, proton, synchrotron |
792 |
|
|
The SLAC Injector |
bunching, electron, emittance, spectrum |
804 |
- R.H. Miller, R.F. Koontz, D. D. Tsang
|
|
Electron Attachment to Medium-Energy Ions |
background, electron, field, ion |
809 |
- M. B. Sampson, F. J. Bartis, W. W. Eidson
|
|
Stabilized DC Power Supplies for Beam Injection into Orbital Accelerators |
coupling, injection, ion, synchrotron |
820 |
|
|
Injector Pulsor for Linac Picosecond Operation |
cathode, electron, gun, radiation |
830 |
- R. K. Hanst, N. J. Norris
|
|
A 45 Inflection System for the Stanford Two-Mile Accelerator |
field, focusing, quadrupole, sextupole |
842 |
- W.B. Herrmannsfeldt, R.H. Miller
|
|
The Cambridge Electron Accelerator Beam Position Monitors |
beam position monitor, electron, impedance, synchrotron |
856 |
|
|
Position Monitoring Electronics for the Stanford Linear Accelerator |
coupling, electron, feedback, monitoring |
862 |
|
|
Water Cooled Beam Dumps and Collimators for the Stanford Linear Accelerator |
electron, radiation, thermal, vacuum |
867 |
- D. Walz, E.L. Garwin, J. Jurow
|
|
Extracted and Secondary Beam Targetry |
feedback, field, proton, target |
887 |
|
|
Beam Bump Method of Target Engagement |
betatron, electron, equilibrium, target |
899 |
|
|
The Magnetic Shielding System for the Stanford Two-Mile Accelerator |
disk-loaded waveguide, field, shielding, waveguide |
929 |
|
|
The External Electron Beam Facility at the Cambridge Electron Accelerator |
electron, emittance, extraction, vacuum |
931 |
|
|
Secondary Emission from Thin Metal Foils Bombarded with 70 - MeV Electrons |
electron, spectrum, target, vacuum |
935 |
- S. A. Blankenburg, J.K. Cobb, J. J. Muray
|
|
Removal of the RF Microstructure from the Proton Linear Accelerator Beam |
cyclotron, field, linac, proton |
949 |
- R. D. Edge, V. W. Hughes, J. Sandweiss
|
|
Beam Switchyard Instrumentation for the Stanford Two-Mile Accelerator |
electron, radiation, spectrum, vacuum |
957 |
|
|
The External Proton Beam for the Princeton-Pennsylvania Accelerator |
extraction, field, quadrupole, septum |
962 |
- J. W. Benoit, K. B. Conner, J. Kirchgessner, F.C. Shoemaker
|
|
The RF Traveling Wave Particle Deflector |
dielectric, field, impedance, travelling wave |
965 |
|
|
Beam Pulse Selector for a Sector Focused Cyclotron |
acceleration, cyclotron, field, focusing |
977 |
- A. Svanheden, H.A. Howe, M. Reiser
|
|
Beam Scanner for the Oxford Electrostatic Tandem Accelerator |
field, light source, resonance, vacuum |
980 |
|
|
Meson Factories |
cyclotron, factory, field, proton |
1012 |
|
|
Super-Energy Accelerators |
field, kicker, proton, site |
1042 |
|
|
Superconducting Accelerators |
electron, field, impedance, synchrotron |
1045 |
- P.B. Wilson, H.A. Schwettman
|
|