Title |
Other Keywords |
Page |
The Status of the ESRF |
booster, commissioning, insertion, synchrotron |
35 |
- A. Ropert (ESRF Grenoble)
|
|
Operating Status of the TRISTAN Superconducting RF System |
coupling, field, quench, radiation |
57 |
- T. Shishido, K. Akai, E. Kako, K. Kubo, S. Noguchi (KEK)
|
|
DA NE Status Report |
feedback, field, luminosity, tune |
60 |
- M. E. Biagini, and the DA
NE Project Team (INFN - Lab. Naz. di Frascati, Roma)
|
|
Extended Study of Photon Stimulated Gas Desorption from OFHC Copper by 3.75 keV Critical Energy Photons |
irradiation, photon, synchrotron, thermal |
132 |
- O. Gröbner, A.G. Mathewson (CERN), P. C. Marin (LURE)
|
|
Vacuum System of the ESRF |
booster, ion, software, thermal |
135 |
- M. Renier, D. Schmied, B. A. Trickett (ESRF Grenoble)
|
|
High-Frequency Powerful Electron Accelerators Type ILU for Industrial Applications |
accelerator, electron, extraction, irradiation |
182 |
- V. L. Auslender, V. G. Cheskidov, B. L. Faktorovich, V. A. Gorbunov, V. E. Nekhaev, A. D. Panfilov, V.A. Poliakov, A. A. Tuvik (INP, Novosibirsk)
|
|
Report on Helios: Routine Operation |
injection, lifetime, linac, x-ray |
187 |
- R. J. Anderson, A. R. Jorden, V. C. Kempson, J. C. Schouten, A. I. C. Smith, M. C. Townsend, J. A. Uythoven, M. N. Wilson (Oxford Instruments, Oxford), D. E. Andrews, A. J. Weger (Oxford Superconducting Technology, Carteret, NJ)
|
|
Performance of SORTEC 1-GeV Synchrotron Radiation Source Facility and Future Plan |
injection, ion, synchrotron, x-ray |
203 |
- M. Kodaira, N. Awaji, T. Kishimoto (SORTEC), O. Asai, M. Haraguchi (Mitsubishi Corp.)
|
|
Performance of the Phase I Superconducting X-Ray Lithography Source (SXLS) at BNL |
electron, feedback, instability, synchrotron |
212 |
- J. B. Murphy, R. Biscardi, H. Halama, R. Heese, S. Kramer, R. Nawrocky (NSLS-BNL), J. Krishnaswamy (Grumman Aerospace Corp., Bethpage, N.Y.)
|
|
Review of Experience with Superconducting Cavities |
accelerator, electron, field, radiation |
279 |
|
|
A High Power SLED-II Pulse Compression System |
accelerator, collider, field, waveguide |
327 |
- N. M. Kroll (SLAC, Dept. Physics, UCSD, La Jolla, CA), Z. D. Farkas, T. L. Lavine, A. Menegat, R. D. Ruth, P. B. Wilson (SLAC), C. Nantista (SLAC, Dept. Physics, UCSD, La Jolla, CA, and visitor from Dept. of Physics, UCLA)
|
|
Status of the LEP Energy Upgrade |
collider, klystron, optics, synchrotron |
400 |
|
|
Lattice Modifications for the LEP Energy Upgrade |
emittance, insertion, lattice, luminosity |
403 |
|
|
Experience with the 855 MeV RTM-Cascade MAMI |
focusing, linac, microtron, radiation |
418 |
- H. Euteneuer, H. Herminghaus, R. Herr, P. Jennewein, K. H. Kaiser, Ch. Klümper, H. -J. Kreidel, J. Leonardy, U. Ludwig-Mertin, K. W. Nilles, A. Steinel, G. Stephan, P. Zinnecker (Institut für Kernphysik de Univ. Mainz)
|
|
DA NE Lattice Update |
betatron, emittance, lattice, lifetime |
424 |
- M. E. Biagini, S. Guiducci, M. R. Masullo, G. Vignola (INFN - Lab. Naz. di Frascati, Roma)
|
|
Charaterization of the Performances of the ENEA Racetrack Microtron |
extraction, focusing, injection, microtron |
427 |
- C. Ronsivalle, G. Giubileo, G. Messina, L. Picardi, A. Vignati (ENEA, INN. SVIL., Frascati)
|
|
PEP-II Asymmetric B. Factory: R & D Results |
background, collider, damping, feedback |
459 |
- J. Dorfan, A. Hutton (SLAC), M. S. Zisman (LBNL), W. A. Barletta (LLNL)
|
|
Operations with Internal Targets and Electron Cooling at CELSIUS |
electron, ion, proton, target |
465 |
- T. Bergmark, C. Ekström, C. -J. Friden, K. Gajewski, L. Hermansson, P. Jahnke, A. Johansson, O. Johansson, T. Johnson, T. Lofnes, G. Norman, D. Reistad, R. Wedberg, L. Westerberg (The Svedberg Lab., Uppsala), M. Sedlacek (Royal Institute of Technology, Stockholm)
|
|
ESRF Booster Synchrotron: Characteristics and Achieved Performances |
acceleration, booster, extraction, injection |
471 |
- J. M. Filhol (ESRF Grenoble)
|
|
Installation and Commissioning of PLS Preinjector Linac |
accelerator, electron, klystron, linac |
507 |
- W. Namkung, J. Bak, M. Cho, I. Ko, C. Ryu, S. Won (Pohang Accelerator Laboratory), D. Liu, S. Zhou (Pohang Accel. Lab, Korea & permanent address: IHEP, Beijing, China)
|
|
First Results on LELIA Induction Injector |
brightness, cathode, electron, induction |
512 |
- P. Eyharts, P. Anthouard, J. Bardy, P. Eyl, A. Roques, M. Thevenot, D. Villate (CEA, CES, LeBarp)
|
|
RF Cavity Vacuum Interlock System |
accelerator, electron, ion, waveguide |
515 |
- K. Jordan, R. Bundy, K. Crawford, H. F. Dylla, J. Heckman, J. Marshall, R. Nichols, S. O'Sullivan, J. Preble, J. Robb, W. Schneider, R. Sundelin, J. Vandyke (CEBAF)
|
|
Measurement of the CERN High Intensity RFQ |
accelerator, emittance, focusing, linac |
542 |
- E. Tanke, M. Vretenar, M. Weiss (CERN)
|
|
The Polarization Wigglers in LEP |
field, polarization, radiation, wiggler |
649 |
- D. Brandt, O. Gröbner, J. M. Jowett, T. M. Taylor, T. Tortschanoff (CERN)
|
|
The Effect of Vacuum Chamber Wall Conductivity of an Accelerator on the Value of Coulomb Tune Shifts |
accelerator, betatron, field, tune |
792 |
- V. I. Balbekov (IHEP, Protvino)
|
|
RFQ Matching for Current Dominated Ion Beams |
acceleration, focusing, ion, optics |
816 |
- R. Becker (Institut für Angewandte Physik)
|
|
Heavy-Ion Cooling and Related Applications in the Cooler-Ring TARN II at INS |
electron, electron cooling, heavy-ion, ion |
830 |
- T. Tanabe, Y. Arakaki, K. Chida, I. Katayama, T. Katayama, R. Nagai, M. Tomizawa, S. Watanabe, T. Watanabe, J. Yoshizawa, M. Yoshizawa (INS, Tokyo), T. Honma (Cyclotron and Radioisotope Centre, Sendai), K. Noda (National Institute of Radiological Sciences, Chiba-shi), H. J. Xu (Shanghai Institute of Nuclear Research, Academia Sinica, Shanghai), N. Inoue (Sophia University, Tokyo), S. Ohtani (Univ. of Electro-Communications, Tokyo)
|
|
Status of the COSY Electron Cooler |
electron, field, gun, solenoid |
839 |
- W. Derissen, R. Maier, U. Pfister, D. Prasuhn, M. Sauer, W. Schwab, H. J. Stein, J. -D. Witt, A. Zumloh (Forschungszentrum Jülich GmbH), U. Schwarz (Gesamthochschule Paderborn), M. Sedlacek (Kungl. Tekniska Hógskolan Stockholm), J. Wimmer (PROFEM GmbH)
|
|
Beam Interaction with Pumping Holes in Vacuum-Chamber Walls |
coupling, field, impedance, thermal |
871 |
- S. S. Kurennoy (IHEP, Protvino)
|
|
Superconducting Cavities Calculations for a B-Factory |
damping, field, impedance, resonance |
877 |
- O. Henry, A. Mosnier (CEN Saclay)
|
|
Impedance Measurements for the Pumping Holes in the LHC Liner |
coupling, field, impedance, resistive wall |
889 |
- F. Caspers, E. Jensen, F. Ruggiero (CERN)
|
|
Wireless Impedance Measurements and Fault Location on ESRF Vacuum Chamber Assemblies |
field, impedance, resonance, waveguide |
901 |
- J. Jacob, G. Gautier (ESRF Grenoble), F. Caspers (CERN), M. Ikonomou, A.F. Jacob (Inst. f. Hochfrequenztech), M. Emmerich (Rosenberger Me
technik GmbH Sachsen)
|
|
RF Impedance Measurement Status for the 7 GeV Advanced Photon Source (APS) |
accelerator, coupling, impedance, photon |
916 |
- J. J. Song, R. L. Kustom (ANL)
|
|
Aperture Coupling Measurement in a Test Chamber for the Advancecd Photon Source (APS) |
coupling, field, impedance, photon |
922 |
- J. J. Song, R. L. Kustom, J. H. Zhou (ANL)
|
|
The Frequency Behaviour of the Longitudinal Coupling Impedance of a Periodic Array of Diaphragms |
coupling, field, impedance, radiation |
925 |
- G. Dome (CERN), L. Palumbo (Dip. di Energetica Universitá di Roma 'La Sapienza'), V. G. Vaccaro (Dip. di Scienze Fisiche, Univ. di Napoli "Federico II" and INFN, Sez. di Napoli), L. Verolino (INFN - Lab. Naz. di Frascati, Roma)
|
|
Particle Acceleration in Electromagnetic Wave Fields |
acceleration, coupling, field, plasma |
951 |
- K. O. Thielheim (Institute für Reine und Angewandte Kernphysik, University of Kiel)
|
|
Classical Motion of a Charged Particle in the Presence of a Static, Homogeneous Magnetic Field and a Linearly Frequency Shifted Electromagnetic Plane Wave |
acceleration, accelerator, field, laser |
964 |
- S. Varró, G. Kocsis (Central Research Insitute for Physics, Budapest)
|
|
Operation of the Legnaro ECR Ion Source |
electron, ion, ionization, plasma |
984 |
- M. Cavenago (INFN-LNL, Legnaro)
|
|
MEVVA Ion Source for Heavy Ion Synchrotron Injection |
cathode, extraction, ion, plasma |
987 |
- B. H. Wolf, H. Emig, P. Spädtke (GSI Darmstadt), I. G. Brown (LBNL)
|
|
Performance of the Penning H- Ion Source at ISIS |
cathode, extraction, ion, synchrotron |
1005 |
- R. Sidlow, N. D. West (RAL, Didcot)
|
|
The Polarized Electron Gun for the SLC |
cathode, electron, field, gun |
1029 |
- D. C. Schultz, J. Clendenin, J. Frisch, E. Hoyt, L. Klaisner, M. Woods, D. Wright, M. Zolotorev (SLAC)
|
|
Beam Diagnostics of the ELETTRA Injector |
accelerator, diagnostics, linac, radiation |
1091 |
- J. -C. Denard, C. J. Bocchetta, A. Carniel, T. Monaci, P. Sereni, R. Ursic (Sincrotrone Trieste), S. Sierra (General Electric CGR MeV, Buc, France)
|
|
A New Beam Current Monitor for the MIMAS Storage Ring |
acceleration, injection, ion, thermal |
1103 |
- L. Degueurce, J. M. Armani, F. Launay (LNS)
|
|
The Sealed Beam Intensity Monitors |
ionization, irradiation, proton, thermal |
1106 |
- S. N. Lapitsky, V. E. Rakhmatov, V. S. Seleznev (IHEP, Protvino)
|
|
PLS Beam Position Monitoring System |
feedback, impedance, monitoring, pick-up |
1115 |
- J. Y. Huang, D. H. Jung, D. T. Kim, J. H. Kim, J. S. Kim, M. K. Park, S.C. Won (Pohang Accelerator Laboratory)
|
|
Beam Position Signal Processing |
accelerator, coupling, pick-up, spectrum |
1127 |
|
|
Experience with the Residual Gas Ionisation Beam Profile Monitors at the DESY Proton Accelerators |
acceleration, field, proton, residual gas |
1133 |
|
|
The Control System of the LNL Linac |
accelerator, diagnostics, linac, software |
1145 |
- G. Bassato, A. Battistella, M. Bellato, S. Canella (INFN-LNL, Legnaro)
|
|
Status Report on the Control System for the MMF Experimental Area |
accelerator, field, ionization, maintenance |
1148 |
- V. Gorbunov, M. Gratchev, V. Seleznev, V. Yabzhanov (Institute for Nuclear Research)
|
|
Upgrading the Controls of the SPS Vacuum System |
accelerator, background, controls, software |
1161 |
- W. Koelmeijer, M. Nicoules, M. Steffensen, P. Strubin (CERN)
|
|
Operational Experience and Recent Upgrading of TRISTAN High Power CW Klystrons |
accelerator, cathode, cw, klystron |
1206 |
- S. Isagawa, M. Ono, Y. Takeuchi, M. Yoshida, S. Yoshimoto (KEK), Y. Imaizumi, Y. Kawakami, K. Kobayashi, K. Ohya, T. Okamoto (KEK and Toshiba Corp.)
|
|
Q-Degradation in High Purity Niobium Cavities - Dependence on Temperature and RRR-Value |
accelerator, crystal, electron, field |
1231 |
- K. Saito, P. Kneisel (CEBAF)
|
|
Higher-Order-Mode Damping and Microwave Absorption at 2K |
dielectric, field, scattering, waveguide |
1237 |
- I. E. Campisi, K. E. Finger, A. M. Johnson, L. K. Summers (CEBAF)
|
|
High Power Testing of the Prototype Accelerating Cavity (352 MHz) for the Advanced Photon Source (APS) |
damping, impedance, photon, positron |
1254 |
- J. Bridges, Y. W. Kang, R. L. Kustom, K. Primdahl (ANL)
|
|
The Status of RF Superconducting Activities at Peking University |
brightness, electron, field, gun |
1257 |
- C.-E. Chen, X. Fu, J. Song, G. Wang, L. Wang, B. Zhang, K. Zhao (IHIP of Peking University)
|
|
A Bulk Niobium Low Superconducting Quarter Wave Resonator for ALPI |
accelerator, field, impedance, thermal |
1266 |
- A. Facco (INFN-LNL, Legnaro), J. S. Sokolowski (INFN-Legnaro and Weizmann Institute of Science, Rehovot), B. Elkonin (The Weizmann Institute of Science, Rehovot)
|
|
Superconducting Niobium Sputter-coated Copper Cavities at 1500 MHz |
electron, field, sputter, thermal |
1269 |
- Ph. Bernard, D. Bloess, T. Flynn, C. Hauviller, W. Weingarten (CERN), P. Bosland, J. Martignac (CEN Saclay)
|
|
Development of Superconducting Cavities for High Gradient Applications |
accelerator, electron, field, quench |
1272 |
- E. Kako, K. Akai, S. Noguchi, M. Ohara, M. Ono, T. Shishido (KEK), P. Kneisel, K. Saito (CEBAF), M. Matsuoka (Mitsubishi Heavy Industries), H. Miwa, T. Suzuki (Nomura Plating Co.)
|
|
CERN's Technology for Superconducting Cavities in European Industry |
electron, field, sputter |
1275 |
- C. Arnaud, C. Benvenuti, Ph. Bernard, D. Bloess, G. Cavallari, E. Chiaveri, N. Hilleret, J. Tückmantel, W. Weingarten (CERN)
|
|
Manufacture at ANSALDO of 350 MHz Superconducting Cavities for LEP |
cathode, controls, electron, field |
1280 |
- A. Bixio, P. Gagliardi, A. Maragliano, M. Marin, S. Moz, F. Terzi, G. Zoni (Ansaldo, Genoa)
|
|
Niobium Sputtered Quarter Wave Resonators |
cathode, electron, field, thermal |
1292 |
- V. Palmieri, L. Badan, G. P. Buso, F. Poletto, A. M. Porcellato, R. Preciso (INFN, Legnaro), J. S. Sokolowski (INFN-Legnaro and Weizmann Institute of Science, Rehovot), O. B. Malishev (INP, Novosibirsk), V. L. Ruzinov, S.Yu. Stark (Moscow Institute of Steel and Alloys)
|
|
Thermal Model Calculations in Superconducting RF Cavities |
electron, field, finite element, thermal |
1304 |
- M. Fouaidy, T. Junquera (IPN, Orsay), B. Aune, J. Gratadour, M. Juillard (CEN Saclay), R. Brizzi (Centre de Mathematiques Appliquees)
|
|
Status Report of the RF System for the VINCY Cyclotron |
accelerator, coupling, cyclotron, impedance |
1310 |
- B. Bojovic, M. Josipovic (VINCA Institute of Nuclear Sciences, Belgrade), A. Susini (CERN)
|
|
Electron Emission from Niobium Samples for High Applied Electric Fields |
electron, field, site, superconductivity |
1322 |
- C. Chianelli, A. Curtoni, J. Jimenez, J. Jodet, G. Jouve, A. Zeitoun-Fakiris (CEN Saclay)
|
|
Layout and High Power Test of a 26 MHz Spiral RFQ |
impedance, ion, quadrupole, spectrum |
1328 |
- C.-E. Chen, J.-X. Fang, D. Li, W. Li, Y. Lu, O. Pan, L. Wang, M. Yu (Inst. of Heavy Ion Physics and Dept. of Technical Physics, Peking University), H. Deitinghoff, H. Klein, A. Schempp (Institut für Angewandte Physik, Univ. Frankfurt)
|
|
The RFQ-Accelerator for the High Current Injector of the TSR |
acceleration, accelerator, ion, resonance |
1340 |
- C. M. Kleffner, M. Grieser, D. Habs, J. Liebmann, R. Repnow, M. Stampfer, R. von Hahn (Max-Planck-Institut für Kernphysik, Heidelberg), E. Jaeschke (BESSY, Berlin), S. Papureanu (IFIN Bucarest), H. Deitinghoff, A. Schempp (Univ. Frankfurt)
|
|
ESRF - The Storage Ring Magnets |
controls, field, magnetic measurements, quadrupole |
1347 |
- M. Lieuvin, L. Farvaque, A. Ropert (ESRF Grenoble)
|
|
Splitter Magnets for the DA NE Project |
accelerator, alignment, field, linac |
1373 |
- C. Sanelli, H. Hsieh (INFN - Lab. Naz. di Frascati, Roma)
|
|
The Design and Manufacture of the Fermilab Main Injector Dipole Magnet |
accelerator, antiproton, field, proton |
1376 |
- B. C. Brown, N. S. Chester, D. J. Harding, P. S. Martin (FNAL)
|
|
Design of the 1.8 Tesla Wiggler for the DA NE Main Rings |
alignment, cooling water, field, wiggler |
1391 |
- C. Sanelli, H. Hsieh (INFN - Lab. Naz. di Frascati, Roma)
|
|
DA NA Accumulator Kickers |
extraction, field, injection, kicker |
1449 |
- S. de Simone, A. Ghigo (INFN - Lab. Naz. di Frascati, Roma)
|
|
The ELETTRA Fast Magnets |
field, injection, kicker, septum |
1452 |
- D. Tommasini (Sincrotrone Trieste)
|
|
An Overview of the Beam Abort System for the 820 GeV /c HERA Proton Ring |
accelerator, kicker, proton, radioactivity |
1455 |
|
|
HERA e- Injection with Septum and Kicker Technology |
field, injection, kicker, septum |
1457 |
|
|
A High Current Passive Septum Magnet for ELETTRA |
electron, field, injection, septum |
1460 |
- R. Fabris, A. Favari, D. Tommasini (Sincrotrone Trieste)
|
|
High Current Density Septa for DA NE Accumulator and Storage Rings |
field, injection, septum, thermal |
1472 |
- M. Modena, H. Hsieh, C. Sanelli (INFN - Lab. Naz. di Frascati, Roma)
|
|
Septum Magnet for Electron Extraction System at the Synchrotron EPI |
extraction, field, septum, synchrotron |
1491 |
- A. Z. Babaian, A. E. Nazanian, V. Ts Nikogossian, A. R. Tumanian, A. G. Zacharian (Yerevan Physics Institute), J. Rummler (DESY), E. A. Ludmirski (IHEP, Serpukhov)
|
|
The Axial Injection System of the Isochronous Cyclotron |
cyclotron, focusing, injection, ion |
1513 |
- J. Stursa, V. Bejsovec, A. Borková, M. Krivánek, J. Mares, Z. Trejbal (Nuclear Physics Institute Czechoslovak Academy of Sciences)
|
|
DA NE Vacuum System |
ion, photon, radiation, synchrotron |
1561 |
- V. Chimenti, A. Clozza, H. Hsieh, C. Vaccarezza (INFN - Lab. Naz. di Frascati, Roma)
|
|
Experience with the Operation of the LEP Vacuum System and its Performance for LEP200 |
photon, radiation, residual gas, synchrotron |
1564 |
- J. -P. Bojon, O. Gröbner, J. -M. Laurent, P. M. Stubin (CERN)
|
|
Vacuum System for the DUBNA ECR-Ion Source DECRIS - 14 |
cyclotron, field, ion, shielding |
1567 |
- A. A. Efremov, A. I. Ivanenko, V. B. Kutner, J. Pivarc, K. D. Tumanov (JINR, Dubna)
|
|
The Vacuum System of CRYRING |
electron, gun, injection, ion |
1570 |
- L. Bagge, H. Danared, K. Ehrnstén, C.J. Herrlander, J. Hilke, A. Nilsson, K. -G. Rensfelt (Manne Siegbahn Inst. Stockholm)
|
|
Vacuum Processing and Control on COSY Beam Lines |
accelerator, equilibrium, injection, target |
1573 |
- W. Bertram, K. Döring, H. B. Müller, W. Renftle, H. Stechemesser, V. Vau, J. Zeumann, A. Zumloh (Forschungszentrum Jülich GmbH)
|
|
A Simulation of the Gas Desorption in the LHC using Low Critical Energy Synchrotron Radiation |
photon, proton, radiation, synchrotron |
1576 |
- J. Gómez-Goñi, O. Gröbner, A.G. Mathewson, A. Poncet (CERN)
|
|
The Vacuum Behaviour of Screen Pumping Holes in the LHC Studied by Monte Carlo Simulation Techniques |
hadron, radiation, simulation, synchrotron |
1579 |
- J. Gómez-Goñi, A.G. Mathewson, A. Poncet (CERN)
|
|
Manufacturing of Dipole Chambers and Bellow Flat Absorber Vessels for the ESRF Storage Ring |
electron, impedance, synchrotron, x-ray |
1582 |
- J. Dauk, W. Giebeler, M. Hunke, R. Schirk (Siemens AG, Accelerator and Magnet Technology, Bergisch Gladbach)
|
|
Mechanical Design Philosophy and Construction of the Amsterdam Pulse Stretcher Ring AmPS |
alignment, radiation, shielding, synchrotron |
1585 |
- A. P. Kaan, R. P. J. Arink, J. H. M. Bijleveld, H. Boer Rookhuizen, G. Bron, J. A. Heemskerk, J. Langedijk, P. Lassing, J. Touw, W. Verlegh (NIKHEF-K)
|
|
A Technique for Performing the Assembly Alignment of the SSC Dipole Magnets |
alignment, collider, survey, target |
1616 |
|
|
Variation of the Circumference in a Storage Ring and Expansion of the Building |
laser, photon, simulation, thermal |
1631 |
- T. Katsura, A. Araki, H. Nakamura (Photon Factory, KEK, Tsukuba), Y. Kamiya (ISSP, Tokyo), Y. Fujita (Photon Factory, KEK and Shimuza Corporation, Japan)
|
|
Operational Experience with the LEP Low-Beta Superconducting Quadrupoles |
commissioning, controls, monitoring, quench |
1641 |
- Ph. Lebrun, O. Pagano, T. M. Taylor, L. Walckiers (CERN)
|
|
Ion Clearing in the LNLS UVX-2 Soft X-Ray Source |
electron, field, ion, ionization |
1647 |
|
|
Enhanced Field Emmission of Niobium Single Crystals |
accelerator, cathode, electron, field |
1653 |
- E. Mahner, R. Heiderhoff, N. Minatti, H. Piel (Bergische Universität Wuppertal)
|
|
Series of High Voltage Ion Accelerators for Use in Industrial Technological Lines |
acceleration, field, ion, residual gas |
1711 |
- N. I. Alinovsky, I. L. Chertok, N. S. Dikansky, A. D. Goncharov, V. P. Ostanin, V. G. Shamovsky, B. N. Sukhina (INP, Novosibirsk)
|
|
Electron Beam Processing of Metals |
acceleration, accelerator, electron, extraction |
1724 |
- I. N. Meshkov (Center App. Ph. Tech., Lipetsk)
|
|
Basic Features of a Reactor Driver Concept for Indirect Drive |
heavy-ion, induction, ion, laser |
1731 |
- R. W. Müller (GSI), R. C. Arnold (TH Darmstadt)
|
|