| Title |
Other Keywords |
Page |
| Experimental Studies of the Charge Limit Phenomenon in NEA GaAs Photocathodes |
accelerator, electron, gun, laser |
46 |
- H. Tang, R. K. Alley, J. E. Clendenin, J. C. Frisch, G. A. Mulhollan, P. J. Saez, D. C. Schultz, J. L. Turner (SLAC), H. Aoyagi (Nagoya U.)
|
|
| Performances Obtained with the CERN Linear Collider Test Facility (CTF) |
collider, field, gun, laser |
680 |
- R. Bossart, H. Braun, J. P. Delahaye, K. K. Geissler, J. C. Godot, J. H. B. Madsen, A. J. Riche, L. Rinolfi, S. Schreiber, J. Sladen, G. Suberlucq, I. Wilson, W. Wuensch (CERN)
|
|
| Operational Experience on the Brookhaven National Laboratory Accelerator Test Facility |
acceleration, electron, gun, laser |
736 |
- K. Batchelor, M. Babzien, I. Ben-Zvi, R. Fernow, J. Fischer, A. Fisher, R. Malone, I. Pogorelsky, J. Sheehan, T. Srinivasan-Rao, X. Wang (BNL)
|
|
| Two Section CW Electron Linac for Industrial Applications |
accelerator, cw, electron, gun |
766 |
- A. Alimov, A. Chepurnov, O. Chubarov, D. Ermakov, K. Gudkov, B. Ishkhanov, I. Piskarev, A. Shumakov, V. Shvedunov (INP, Moscow State University)
|
|
| Continuous Wave RF Gun: Computer Simulation, Design and Tuning |
accelerator, field, gun, linac |
778 |
- A. Alimov, O. Chubarov, D. Ermakov, B. Ishkhanov, I. Piskarev, V. Shvedunov, A. Tiunov, V. Yaliyan (INP, Moscow State University)
|
|
| Wakefield Effects on the Beam Accelerated in an RF-Photoinjector |
electron, field, photoinjector, wakefield |
1126 |
- J. Dolique, J. Coacolo, W. Salah (LPPG, Univ. Joseph Fourier-Grenoble I and CEA-PTN, Bruyéres le Châtel)
|
|
| Wakefield Driven by the Strongly Accelerated Beam of an RF Photoinjector |
electron, field, photoinjector, wakefield |
1306 |
- J. Dolique (Univ. of Grenoble I and CEA-PTN, Bruyéres-le-Châtel)
|
|
| Time-Dependent Normal Mode Analysis of the Wakefield Generated in a Cylindrical Cavity by an Accelerated Charged Paticle Beam |
field, photoinjector, thermal, wakefield |
1309 |
- J. Dolique (LPPG, Univ. Joseph Fourier-Grenoble I and CEA-PTN, Bruyéres le Châtel), W. Salah (LPPG Univ. of Grenoble I)
|
|
| Metal Vapour Production for ECR Ion Sources |
field, induction, ion, vacuum |
1424 |
- M. Cavenago, G. Binelle, M. F. Moisio, F. Scarpa, A. Zanon, L. Ziomi (Lab. Naz. di Legnaro and INFN), A. Vassiliev (ITEP, Moscow)
|
|
| A New Modification of PIG-Type H-<\sup> Ion Source for the Compact Cyclotron |
cyclotron, extraction, ion, plasma |
1447 |
- D. I. Yartsev, A. Ya. Pisman, V. E. Yarosh (RRC "Kurchatov Institute", Moscow)
|
|
| Negative Hydrogen Ion Sources for Accelerators |
extraction, ion, lifetime, plasma |
1450 |
- G. E. Derevyankin (INP, Novosibirsk)
|
|
| Multialkali Thin Photocathodes for High Brightness Guns |
brightness, electron, lifetime, photon |
1456 |
- P. Michelato, C. Pagani, D. Sertore (INFN-LASA), S. Valeri (INFM, Modena)
|
|
| First Operation of a Femtosecond Laser Driven Photoinjector |
accelerator, field, gun, laser |
1462 |
- C. Travier, M. Bernard, B. Leblond (LAL Orsay), P. Georges, G. Roger, P. Thomas (Institut d' Optique Théorique et Appliquée, Orsay)
|
|
| Ultrashort High Current Density Produced by Laser from Metals |
electron, femtosecond, laser, photoelectric |
1465 |
- J. P. Girardeau-Montaut, M. Afif, C. Girardeau-Montaut (Lab. Interactions Laser-Matériau, Univ. Lyon 1), S. D. Moustaizis (FORTH/IESH Heraklion, Crete)
|
|
| Electron Emission from Ferroelectric Cathodes Excited by Picosecond Laser Pulses with Long Wavelenghs |
electron, extraction, irradiation, laser |
1468 |
- K. Geissler, J. P. Gourber, A. Meineke, H. Riege (CERN), B. Leblond (LAL Orsay), J. Handerek (Univ. of Katowice)
|
|
| Measurement of Time Response of Laser-Triggered GaAs Photocathode |
electron, gun, laser, polarization |
1480 |
- P. V. Logatchev, A. V. Aleksandrov, M. S. Avilov, N. S. Dikansky, A. V. Novokhatski (INP, Novosibirsk), G. Ciullo, G. Lamanna, B. Yang (Lab. Nazionali Legnaro), R. Calabrese, V. Guidi, P. Lenisa (Univ. and INFN, Ferrara), L. Tecchio (University di Torino and INFN)
|
|
| Electron Beam Guns for High Intensity Linear Accelerators and Technological Purposes |
brightness, electron, gun, vacuum |
1489 |
- V. A. Polyakov, I. S. Shchedrin (Moscow Engineering Physics Institute (MEPhI))
|
|
| A Scintillator - Photodiode - Beam Intensity Monitor |
coupling, ion, radiation, synchrotron |
1725 |
- P. Heeg, O. Keller (GSI Darmstadt)
|
|
| Coating Techniques and Improvement of High Power CW Klystrons for TRISTAN |
accelerator, electron, klystron, vacuum |
1912 |
- S. Isagawa, Y. Takeuchi, M. Yoshida (KEK), K. Itoh, K. Ohya (Toshiba Corp., Ohtawara), T. Higuchi, K. Kobayashi (Toshiba Corp., Saiwai)
|
|
| Upgrading of High Power Klystron YK1303 |
electron, feedback, field, klystron |
1915 |
- S. Isagawa, M. Yoshida (KEK), E. Demmel, G. Jäger (Philips GmbH, RHW, Hamburg)
|
|
| X-Band Klystrons for Japan Linear Collider |
accelerator, klystron, simulation, x-band |
1918 |
- H. Mizuno, T. Higo, J. Odagiri (KEK), H. Yonezawa (Toshiba Corp., Ohtawara)
|
|
| Magnicon - High Power RF Source for TESLA |
cw, electron, field, solenoid |
1924 |
- O. Nezhevenko, E. Kozyrev, I. Makarov, B. Persov, M. Tiunov, V. Yakovlev, I. Zapryagaev (INP, Novosibirsk)
|
|
| Commissioning of the Hard Tube Pulser Experiment at DESY |
collider, commissioning, klystron, modulator |
1933 |
- M. Bieler, S. Choroba, J. Hameister, H. -Ch. Lewin (DESY), R. Giebeler, S. Gold (SLAC)
|
|
| The High-voltage Interface for the LEP 2 RF Power Generation System |
cw, klystron, modulator, waveguide |
1939 |
- H. Frischholz, G. Pecheur (CERN)
|
|
| RF Tests of the Magnetron-Type Varactors |
accelerator, electron, field, injection |
1980 |
- I. B. Enchevich, R. L. Poirier (TRIUMF, Vancouver, BC), M. I. Kuznetsov, V. A. Kuznetsov, V. V. Paramonov, P. I. Reingardt-Nikulin, Yu. V. Senichev (INR, Moscow)
|
|
| Sputtering of High Quality Niobium Films into 1.5 GHz Monocell Cavities |
electron, field, plasma, target |
2069 |
- V. Palmieri, R. Preciso (INFN, Legnaro), V. L. Ruzinov, S.Yu. Stark (Moscow Institute of Steel and Alloys)
|
|
| Elaboration and Characterization of Nb and NbTiN Superconducting Thin Films for RF Applications |
electron, field, ion, sputter |
2074 |
- S. Cantacuzéne, P. Bosland, J. Gobin, M. Juillard, J. Martignac (CEA, Direction des Sciences de la Matiére, CE Saclay, Gif-sur-Yvette)
|
|
| Studies on Field Emission in RF Cavities using an Optical Detection System |
electron, field, radiation, rf cavities |
2203 |
- T. Junquera, M. Fouaidy, A. Le Goff, S. Maïssa (IPN (CNRS-IN2P3), Orsay), B. Bonin, H. Safa, J. Tan (DSM/DAPNIA/SEA CE-Saclay, Gif-sur-Yvette)
|
|
| Some Considerations on Electron Injection in the 17 -Orbit Microtron from the Institute of Atomic Physics, Bucharest |
electron, field, injection, microtron |
2370 |
- S. Axinescu (Institute of Atomic Physics, Bucharest)
|
|
| Effect of External Magnetic Field and Radiation upon the Accuracy of Total and Partial Pressure Measurements |
field, radiation, shielding, vacuum |
2512 |
- J. Miertusova, F. Daclon (Sincrotrone Trieste)
|
|
| Test Results of Distributed Ion Pump Designs for the PEP-II Asymmetric B-Factory Collider |
accelerator, field, ion, vacuum |
2520 |
- M. Calderon, F. Holdener, D. Peterson, W. Stoeffl (LLNL), C. Foerster (BNL), E. Hoyt, M. Nordby, C. Perkins, D. Wright (SLAC)
|
|
| Effect of Saturating Ferrite on the Field in a Prototype Kicker Magnet |
ferrite, field, impedance, kicker |
2544 |
- M. J. Barnes, G. D. Wait (TRIUMF, Vancouver, BC)
|
|
| Application of "Electronica 10-10" Electron Linac for Food Processing |
accelerator, electron, irradiation, radiation |
2644 |
- W. Maciszewski, A. G. Chmielewski, W. Migdal, B. Owczarczyk (Institute of Nuclear Chemistry and Technology, Warsaw)
|
|
| 4 kW, 25 keV Power Electron Source for Studies of Thermal Beam Effects |
electron, field, irradiation, vacuum |
2653 |
- J. Bigolas, M. Pachan, E. Plawski, J. Pszona, A. Wysocka (Soltan Institute for Nuclear Studies, Swierk)
|
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