| Paper |
Title |
Other Keywords |
Page |
| CYC69A02 |
The Cyclo-Graaff, Concept and Practice
|
cyclotron, proton, target, scattering |
13 |
| |
- F.O. Purser, H.W. Newson, N.R. Roberson, E.G. Bilpuch, R.L. Walter
TUNL, Durham
|
|
| CYC69A03 |
The Indiana University 200 MeV Cyclotron Project
|
cyclotron, ion, controls, injection |
24 |
| |
- M.E. Rickey, M.B. Sampson, B.M. Bardin
Indiana University, Bloomington
|
|
| CYC69A05 |
A Heavy-ion Accelerator Facility Featuring a Separated-Sector Isochronous Cyclotron
|
ion, cyclotron, heavy-ion, proton |
41 |
| |
- S.W. Mosko, J.A. Martin, E.D. Hudson, L.N. Howell, M.L. Mallory
ORNL, Oak Ridge
|
|
| CYC69A07 |
Status Report on SIN
|
cyclotron, cavity, vacuum, injection |
58 |
| |
|
|
| CYC69A09 |
Beam Quality and Expected Energy Resolution from the TRIUMF Cyclotron
|
ion, emittance, cyclotron, TRIUMF |
85 |
| |
- M.K. Craddock, J.R. Richardson
TRIUMF, Vancouver
|
|
| CYC69A14 |
Design Features of the Princeton A.V.F. Cyclotron Facility
|
cyclotron, shielding, scattering, beam-transport |
120 |
| |
- R.E. Pollock
Princeton University, Princeton
|
|
| CYC69A15 |
The UCL Isochronous Cyclotron Conceptual Design and Status Report
|
proton, cyclotron, quadrupole, cavity |
124 |
| |
- P. Macq
Catholic University of Louvain, Héverlé-Louvain
- P. Delphin, A. Dupuis, P. Peironet
Thomson-CSF, Orsay
|
|
| CYC69B02 |
The Control System of the Dubna Monoenergy Cyclotron
|
pick-up, controls, cyclotron, induction |
151 |
| |
- Yu.N. Denisov, A.N. Lyubenko, P.T. Shishlyanikov
JINR, Dubna, Moscow
|
|
| CYC69C01 |
Extraction from Medium and High Energy Cyclotrons
|
resonance, cyclotron, septum, acceleration |
159 |
| |
|
|
| CYC69C02 |
A Magnetically Self-shaping Septum for Beam Deflection
|
septum, cyclotron, proton, magnet-design |
180 |
| |
- E.D. Hudson, F.E. McDaniel
ORNL, Tennesse
|
|
| CYC69C03 |
Results of Beam Extraction at the Jülich 90 MeV Deuteron AEG Isochronous Cyclotron
|
septum, emittance, target, focusing |
190 |
| |
- P. Wucherer, H. Thimmel
AEG Telefunken, Frankfurt
|
|
| CYC69C04 |
Extraction Performance of the Harwell Variable Energy Cyclotron
|
septum, focusing, cyclotron, resonance |
200 |
| |
- E.J. Jones, K.J. Howard
AERE, Harwell
|
|
| CYC69C05 |
A Magnetic Regenerator
|
cyclotron, dipole, controls, factory |
208 |
| |
- S.W. Oh, W.B. Powell
University of Birmingham, Birmingham
|
|
| CYC69C06 |
First and Second Harmonic Extraction
|
cyclotron, acceleration, controls, coupling |
215 |
| |
- J.M. Van Nieuwland
Philips Research Laboratories, Geldrop, Eindhoven
|
|
| CYC69C07 |
Design Studies for an Ultra-thin Septum Extraction Channel for the Modified NEVIS Synchrocyclotron
|
septum, synchro-cyclotron, focusing, betatron |
226 |
| |
- K. Ziegler, E. Martin, R. Cohen
Columbia University, New York
|
|
| CYC69C08 |
Resonance Free or Precessional Extraction - A Comparison
|
resonance, cyclotron, proton, coupling |
229 |
| |
- H. Liesem
AEG Telefunken, Frankfurt
|
|
| CYC69C09 |
A Study of the Regenerative Extraction System in the CERN Synchrocyclotron
|
synchro-cyclotron, cyclotron, betatron, septum |
235 |
| |
|
|
| CYC69C10 |
Extraction of Multiple Beams of Various Energies from the TRIUMF Negative Ion Isochronous Cyclotron
|
ion, TRIUMF, electron, cyclotron |
245 |
| |
- L.P. Robertson, E.G. Auld, G.H. Mackenzie, A.J. Otter
TRIUMF, British Columbia
|
|
| CYC69D02 |
Some Factors Determining the Beam Quality of A.V.F. Cyclotrons
|
cyclotron, focusing, ion, space-charge |
274 |
| |
- H.L. Hagedoorn
Technological University, Eidenhoven
- N. Hazewindus, J.M. Van Nieuwland
Philips Research Laboratories, Geldrop
|
|
| CYC69D04 |
The Longitudinal Space Charge Effect and Energy Resolution
|
space-charge, cyclotron, ion, proton |
305 |
| |
- M.M. Gordon
MSU, East Lansing, Michigan
|
|
| CYC69D05 |
Harmonic Operation of the Harwell Variable Energy Cyclotron
|
ion, acceleration, ion-source, cyclotron |
318 |
| |
- K.J. Howard, E.J. Jones
AERE, Harwell
|
|
| CYC69D06 |
Cyclotron Beam Pulser for Particle Time-of-flight Experiments
|
cyclotron, target, ion, ion-source |
325 |
| |
- W.P. Johnson
University of Maryland, Maryland
- H.G. Blosser, P. Sigg
MSU, East Lansing, Michigan
|
|
| CYC69D09 |
Emittance Measurements at the Jülich Isochronous Cyclotron (JULIC)
|
cyclotron, emittance, proton, ion |
348 |
| |
- W. Kuhlmann, J. Bojowald, C. Mayer-Böricke, J. Reich
Institut für Kernphysik, Jülich
|
|
| CYC69D11 |
On the Production of Monochromatic Beams Using Cyclotron Acceleration
|
cyclotron, acceleration, injection, resonance |
363 |
| |
- R.N. Litunovsky, Yu.G. Basargin, O.A. Minyaev
Efremov Research Institute, Leningrad
|
|
| CYC69D13 |
Spectometric Isochronous Cyclotron
|
cyclotron, ion, injection, proton |
375 |
| |
- A.A. Kolomensky, Yu.K. Khokhlov
Lebedev Physical Institute, Moscow
- I.Ya. Barit, V.N. Kanunnikov, L.N. Katsaurov, E.M. Moroz, L.N. Netchaeva, A.P. Fataev, I.V. Shtranikh, O.A. Gusev, R.N. Litunovsky, I.F. Malishev, O.A. Minyaev, M.P. Svinyin
Lebedev Physical Institute and Efremov Institute,
- G.A. Vasilyev, Yu.G. Basargin
Efremov Research Institute, Leningrad
|
|
| CYC69D15 |
Operational Experience with the H- Beam of the Milan Cyclotron
|
emittance, proton, cyclotron, acceleration |
388 |
| |
- G. Dutto, E. Acerbi, G. Strini, C. Succi
INFN, Milan
- C. Birattari, M. Castiglioni, G. Fait
University of Milan, Milan
|
|
| CYC69E10 |
The HIPAC Ion Source: Recent Theory and Experiments
|
ion, electron, ion-source, emittance |
515 |
| |
- J.D. Daugherty, J.E. Eninger, G.S. Janes, R.H. Levy
Avco Everett Research Laboratory, Everett, Massachusetts
|
|
| CYC69E12 |
Conceptual Design of a Two-Stage, Two-Gap Cyclotron
|
ion, cyclotron, acceleration, injection |
537 |
| |
- B.T. Wright, G.J. Igo, J.R. Richardson, J.W. Verba
UCLA, Los Angeles
|
|
| CYC69F02 |
The 20 MeV Compact Cyclotron
|
cyclotron, proton, vacuum, controls |
556 |
| |
- F. Dupont, B. Gremont
Thomson-CSF, Orsay
|
|
| CYC69F03 |
Basic Design Parameters of a Small Size Isochronous Cyclotron
|
cyclotron, target, vacuum, acceleration |
559 |
| |
- A.G. Alekseev, P.V. Bogdanov, A.N. Galaev, I.F. Malishev, V.A. Panov, A.V. Stepanov, I.V. Tusov
Efremov Research Institute, Leningrad
|
|
| CYC69F04 |
The AEG Compact Cyclotron
|
cyclotron, ion, vacuum, ion-source |
564 |
| |
- E. Hartwig
AEG Telefunken, Frankfurt
|
|
| CYC69F05 |
Design and Performance of a Compact Multi-particle Cyclotron
|
cyclotron, ion, proton, cathode |
573 |
| |
- G.O. Hendry, A.A. Fleischer, C.G. Smith, J.L. Tom, D.K. Wells
The Cyclotron Corporation, Berkeley
|
|
| CYC69G08 |
Design and Performance of an H- Injector Cyclotron
|
cyclotron, ion, injection, ion-source |
658 |
| |
- G.O. Hendry, A.A. Fleischer, D.K. Wells
The Cyclotron Corporation, Berkeley
|
|
| CYC69H01 |
The Harwell 110 in Synchrocyclotron Modification Scheme
|
proton, ion, ion-source, target |
673 |
| |
- J.P. Scanlon
AERE, Harwell
|
|
| CYC69H03 |
Nevis Synchrocyclotron Conversion Project
|
synchro-cyclotron, focusing, proton, cyclotron |
699 |
| |
- J. Rainwater, R. Cohen, E. Martin, R. Schneider, K. Ziegler
Columbia University, New York
- S. Ohnuma
Yale University, New Haven
|
|
| CYC69H04 |
Some Peculiarities of Phase Motion in the Phasotron with Spatial Variation of Magnetic Field
|
acceleration, ion, resonance, synchro-cyclotron |
711 |
| |
- V.P. Dmitrievsky, B.I. Zamolodchikov, N.I. Polumordvinova, V.V. Kolga
JINR, Dubna, Moscow
|
|
| CYC69H05 |
Status Report on the CERN Synchrocyclotron Improvement Programme
|
target, proton, coupling, impedance |
719 |
| |
- N. Vogt-Nilsen
CERN, Geneva
|
|
| CYC69H06 |
The Proton Source for the Improved CERN Synchrocyclotron
|
cathode, plasma, ion, synchro-cyclotron |
728 |
| |
|
|
| CYC69H09 |
Modification of a Conventional 37 in Cyclotron
|
cyclotron, controls, vacuum, ion-source |
768 |
| |
- L. Schecter, H.T. Easterday, P. Fessenden, L.W. Swenson, C.W. Rogers, M.A. Wilson
Oregon State University, Oregon
|
|
| CYC69H10 |
Resonant Proton Beam Depolarisation in a Synchrocyclotron
|
synchro-cyclotron, resonance, synchrotron, betatron |
769 |
| |
- G. Besnier
University of Rennes, Rennes-Beaulieu
|
|