The Creation of SLAC Leading to 30 Years of Operation (p. 3) |
by Panofsky, Wolfgang Kurt Hermann |
Major Projects for the Use of High Power Linacs (p. 9) |
by Promé, M |
Jefferson Lab, a Status Report (p. 17) |
by Dunham, B M |
APT Accelerator Technology (p. 22) |
by Schneider, J D |
Halo Simulation in a Realistic Proton Linac Design (p. 27) |
by Pabst, M |
Overview of Linac Applications at Future Radioactive Beam Facilities (p. 32) |
by Nolen, J A |
Performance of the Argonne Wakefield Accelerator facility and initial experimental results (p. 39) |
by Gai, W |
RFQ-, Chopping- and Funneling-Studies for the ESS-Injector-Linac (p. 47) |
by Schempp, A |
RF-Properties of the VE-RFQ-Injector for the ISL-Cyclotron (p. 50) |
by Engels, O |
Design of Compact RFQs (p. 53) |
by Schempp, A |
Experiments with Heavy-Ion Beams and RF-Tests with the 27 MHz High-Current Spiral-RFQ-Prototype (p. 56) |
by Bessler, U |
A Novel Design for Ion Beam Funneling by the Use of a Two-Beam RFQ and a Multigap-Deflector (p. 59) |
by Madlung, J |
Beam Dynamics Calculations for the Acceleration of Different Ions in a Heavy Ion Linac (p. 62) |
by Deitinghoff, H |
A Study of Beam Chopping Options for the ATLAS Positive Ion Linac (p. 65) |
by Pardo, R C |
A Low-Frequency RFQ for a Low-Charge-State Injector for ATLAS (p. 68) |
by Shepard, K W |
Plasma Modified Production of High-Current High-Purity cw H$^{+}$, D$^{+}$, and H$^{-}$ Beams from Microwave-Driven Sources (p. 71) |
by Spence, D A |
The ANL 50 MeV H$^{-}$ Injector : 35 Year Anniversary(p. 74) |
by Stipp, V F |
The CEBAF RF Separator System (p. 77) |
by Hovater, C |
Investigation of Space Charge Compensated Transport by Use of a Gabor Plasma Lens (p. 80) |
by Pozimski, J |
Investigation of Space Charge Compensation with Residual Gas Ion Energy Analyser (p. 83) |
by Dölling, R |
Design and Construction of Standing Wave Accelerating Structures at TUE (p. 86) |
by De Leeuw, R W |
Electromagnetic Fields in Periodic Linear Travelling-Wave Structures (p. 89) |
by Pruiksma, J P |
The 75 MeV Racetrack Microtron Eindhoven (p. 92) |
by Theuws, W H C |
Operational Status of PLS 2-GeV Electron Linac (p. 95) |
by Ko, I S |
Current Status of Control System for PLS 2-GeV Linac (p. 98) |
by Ko, I S |
Klystron-Modulator System Availability of PLS 2 GeV Electron Linac (p. 101) |
by Cho, M H |
Conclusions from the LISA Superconducting Linac Experience (p. 104) |
by Castellano, M G |
A High Current Proton Linac with 352 MHz SC Cavities (p. 107) |
by Pagani, C |
Preliminary Results on Niobium Sputtered Films Inside TESLA Type Cavities (p. 110) |
by Minestrini, M |
Progress Update on the Development of the $^{3}$He Linac for PET Isotope Production (p. 113) |
by Young, P |
Operating Performances and Current Status of the Laser Injector Complex Facility (LIC) (p. 116) |
by Ayzatsky, M I |
Development of Inhomogeneous Disk-Loaded Accelerating Waveguides and RF-Coupling (p. 119) |
by Ayzatsky, M I |
Optimization of Ion Source Extraction and Transport with Symbolic Manipulation Programs : Electrostatic Lenses Formulas(p. 122) |
by Cavenago, M |
The New Superconducting Positive Ion Injector for the Legnaro ALPI Booster (p. 125) |
by Lombardi, A M |
A New Matcher Type Between RFQ and IH-DTL for the GSI High Current Heavy Ion Prestripper Linac (p. 128) |
by Ratzinger, U |
Space Charge Dominated Beam Transport in the 1.4 MeV/u-UNILAC-Stripper Section (p. 131) |
by Barth, W |
High-Intensity Low Energy Beam Transport Design Studies for the New Injector Linac of the Unilac (p. 134) |
by Barth, W |
Design and wakefield performance of the new SLC collimators (p. 137) |
by Decker, Franz Josef |
Long-range wakefields and split-tune lattice at the SLC (p. 140) |
by Decker, Franz Josef |
Higher order beam jitter in the SLC linac (p. 143) |
by Decker, Franz Josef |
The Brown-Servranckx Matching Transformer for Simultaneous RFQ to DTL H$^{+}$ and H$^{-}$ Matching (p. 146) |
by Wadlinger, E A |
Beam Self-Excited RF Cavity Driver for a Deflector or Focusing System (p. 148) |
by Wadlinger, E A |
Beam-Bunching with a Linear-Ramp Including Space-Charge Force Effects Cylinder Model (p. 151) |
by Wadlinger, E A |
Induction Linear Accelerators for Physics Diagnostics (p. 154) |
by Rutkowski, H L |
All-electrostatic split LEBT test results (p. 157) |
by Staples, J W |
The Electron Gun for the Daresbury SRS Linac (p. 160) |
by Dykes, D M |
Ion Source Development and Operation at GSI (p. 163) |
by Spädtke, P |
Feasibility of Short Wavelength, Short Pulse Laser Ion Source for the LHC Injector (p. 166) |
by Wolowski, J |
Ion emission from high-Z laser plasmas (p. 169) |
by Rohlena, K |
Smooth Ion Energy Tuning in Linear Accelerator (p. 172) |
by Shalnov, A V |
Beam Loading Effects in Linacs with Resonant Loaded RF-Power Upgrade System (p. 175) |
by Shalnov, A V |
RF-field Generation in Wide Frequency Range by Electron Beam (p. 178) |
by Bogdanovich, B Yu |
Recent status of FCI : PIC simulation of coupled-cavity structure(p. 181) |
by Shintake, T |
C-band main linac RF system for $e^+ e^-$ linear collider of 0.5 to 1.0 TeV C M energy (p. 184) |
by Shintake, T |
Performance of the RF-source for the KEKB linac (p. 187) |
by Fukuda, S |
DESY Linac-III Upgrade Study (p. 190) |
by Esin, S K |
A three dimensional bunch shape monitor for the CERN proton linac (p. 193) |
by Esin, S K |
Study of beam parameters of the CERN proton linac using a three dimensional bunch shape monitor (p. 196) |
by Feschenko, A V |
The Status of DESY H$^{-}$-Sources (p. 199) |
by Peters, J |
Space-Charge Neutralization Experiment with a Low-Energy Proton Beam (p. 202) |
by Beauvais, Pierre Yves |
The Saclay High-Current Proton and Deuteron ECR Source (p. 205) |
by Beauvais, Pierre Yves |
Intense Ion Beam Transport and Space Charge Redistribution (p. 208) |
by Bondarev, B I |
Study of Space Charge-Dominated Beam Bunching (p. 210) |
by Durkin, A P |
Isotope Production for Medical and Technical Use at Moscow Meson Factory Linac (p. 213) |
by Esin, S K |
Initial Operation of a 100 MW X-Band Gyroklystron for Collider Applications (p. 216) |
by Lawson, W |
Quadrupole Slow-Wave Deflector for Chopping Charged-Particle Beams (p. 219) |
by Wang, T S F |
The SSRL Linacs for Injection to the Storage Ring and RF Gun Testing (p. 222) |
by Park, S |
APT LLRF Control System Functionality and Architecture (p. 225) |
by Regan, A H |
The Development of an Annular-Beam, High Power Free-Electron Maser for Future Linear Colliders (p. 228) |
by Fazio, M V |
Transverse Match of High Peak-Current Beam into the LANSCE DTL Using PARMILA (p. 231) |
by Merrill, F E |
Beam Dynamics Simulations using a Parallel Version of PARMILA (p. 234) |
by Ryne, Robert D |
Measurement of the Beam Distribution of 433 MHz Proton Linac in Longitudinal Phase Space (p. 237) |
by Dewa, H |
Performance of the 100 MeV Injector Linac for the Electron Storage Ring at Kyoto University (p. 240) |
by Shirai, T |
Numerical Simulation of IH Accelerators with MAFIA and RF Model Measurements (p. 243) |
by Krietenstein, B |
Simulation of Linac Operation Using the Tracking Code L (p. 246) |
by Drevlak, M |
Design Studies for the Positron Factory (p. 249) |
by Okada, S |
Engineering Design of ITEP Proton Linac for Nuclear Waste Transmutation (p. 252) |
by Andreev, V A |
Experimental Test of the Adaptive Alignment of the Magnetic Elements of Linear Collider (p. 255) |
by Alexandrov, V S |
RF Structure Design for the TBNLC (p. 257) |
by Kim, J S |
Operational Experience at the Superconducting Electron Accelerator S-DALINAC (p. 260) |
by Döbert, Steffen |
Review of Electron-Positron Linear Colliders (p. 265) |
by Panofsky, Wolfgang Kurt Hermann |
SLC Status and NLC Design and R&D (p. 270) |
by Raubenheimer, T O |
New Linac Based Free Electron Laser Projects using Bright Electron Beams (p. 275) |
by Rossbach, J |
Pb injector at CERN (p. 283) |
by Haseroth, H |
The New GSI Prestripper Linac for High Current Heavy Ion Beams (p. 288) |
by Ratzinger, U |
Beam test of the pre-injector and the 3-MeV $H^{-}$ RFQ with a new field stabilizer PISL (p. 293) |
by Ueno, A |
RF photoinjectors (p. 298) |
by Clendenin, J E |
Measurement of Short Bunches (p. 303) |
by Wang, D X |
A High Performance Spot Size Monitor (p. 308) |
by Ross, M C |
Construction, Commissioning and Operational Experience of the Advanced Photon Source (APS) Linear Accelerator (p. 315) |
by White, M |
SLC-2000 : a luminosity upgrade for the SLC(p. 323) |
by Breidenbach, M |
Pencil-like mm-size Electron Beams Produced with Linear Inductive Voltage Adders (LIVA) (p. 326) |
by Mazarakis, M G |
Operation and Improvements of the Fermilab 400 MeV Linac (p. 329) |
by Allen, L J |
Longitudinal Emittance from the Fermilab 400 MeV Linac (p. 332) |
by McCrory, E S |
Emittance Measurement Techniques Used in the 1 MeV RFQ for the Isotope Linac at Fermilab (p. 335) |
by McCrory, E S |
Continued Conditioning of the Fermilab 400 MeV Linac High-Gradient Side-Coupled Cavities (p. 338) |
by Kroc, T K |
Bunching system of the KEKB linac (p. 340) |
by Choi Jae Young |
Measurement of precise particle distributions in the emittance phase plane of the JHP LEBT (p. 343) |
by Fujimura, S |
Design of input and output couplers for linear accelerator structures (p. 346) |
by Yamaguchi, S |
Linac LU-20 as Injector of Nuclotron (p. 349) |
by Govorov, A N |
Upgrades of the Nuclotron Injector for Acceleration of Ions with Z/A = 0.28 (p. 352) |
by Baldin, A |
Model for Halo Dynamics in Accelerating Bunched Beams (p. 355) |
by Bruhwiler, D L |
End-to-End Particle Simulations of a 1.76 MeV Electrostatic Proton Linac for Contraband Detection (p. 358) |
by Reusch, M F |
Operational experience with the CERN hadron linacs (p. 360) |
by Charmot, H |
Commissioning and experience in stripping, filtering and measuring the 4.2 MeV/u lead ion beam at CERN Linac 3 (p. 363) |
by Catalan-Lasheras, N |
Experiments on a 14.5 GHz ECR source (p. 366) |
by Hill, C E |
A Linac generator program as pre-processor for the simulation code DYNAC (p. 369) |
by Lapostolle, Pierre M |
Dynamics of Beam Halo in Mismatched Beams (p. 372) |
by Wangler, T P |
A new approach to space charge for Linac beam dynamics codes (p. 375) |
by Lapostolle, Pierre M |
High charge-state ion beam production from a laser ion source (p. 378) |
by Bourgeois, M |
RF and constructional issues in the RFQ for the CERN laser ion source (p. 381) |
by Bourquin, P |
Design and beam tests of an RFQ to accelerate a lead ion beam from a laser ion source (p. 384) |
by Lombardi, A M |
Conceptual Design of Beam Dump for High Power Electron Beam (p. 387) |
by Takei, H |
Analysis of Wake Fields on TWRR Accelerator Structure in PNC (p. 390) |
by Tôyama, S |
Relativistic Klystron Two-Beam Accelerator Studies at the RTA Test Facility (p. 393) |
by Westenskow, G A |
Scaling the TBNLC Collider Design to Higher Frequencies (p. 396) |
by Houck, T L |
ISAC : radioactive ion beams facility at TRIUMF(p. 399) |
by Bricault, P G |
Beam Dynamics Design of the TRIUMF ISAC RFQ (p. 402) |
by Koscielniak, Shane Rupert |
The RFQ Prototype for the Radioactive Ion Beams Facility at TRIUMF (p. 405) |
by Poirier, R L |
Experiments on Resistive-Wall Instability in Space-Charge Dominated Electron Beam with Localized Space-charge Waves (p. 408) |
by Wang, J G |
Prototype of the RFD Linac Structure (p. 411) |
by Swenson, D A |
Coupling Slots Without Shunt Impedance Drop (p. 414) |
by Balleyguier, P P |
Application of RF Crossed Lenses for Beam Focusing in Linac (p. 417) |
by Balabin, A I |
Some New ITEP Approaches to Design of High Intensity Proton Linac for Transmutation (p. 420) |
by Kolomiets, A A |
Conceptual Design of Linac for Power HIF Driver (p. 423) |
by Koshkarev, D G |
Two-Frequency Klystron Amplifier (p. 426) |
by Dovbnya, A N |
Superconductive Stabilization Systems for Charged Particle Accelerators (p. 429) |
by Pignasty, O M |
A Digital Signal Processor Based RF Control System for the TRIUMF ISAC RFQ Prototype (p. 432) |
by Fong, K |
Design of a Drift Tube Linac for the ISAC Project at TRIUMF (p. 435) |
by Laxdal, R E |
Update Plan of SPring-8 Linac (p. 438) |
by Suzuki, S |
Injector Linac of SPring-8 (p. 441) |
by Yoshikawa, H |
A Contraband Detection System Proof-of-Principle Device Using Electrostatic Acceleration (p. 444) |
by Sredniawski, J J |
Thermo-Mechanical Design of a CW Sweep Plate Emittance Scanner (p. 447) |
by Rathke, J |
A Sweep Plate Emittance Scanner for High-Power CW Ion Beams (p. 450) |
by Debiak, T W |
Status of the 1.76 MeV Pulsed Light Ion Beamline at the Northrop Grumman Advanced Technology and Development Center (p. 453) |
by Cole, M |
Parametric Study of Emerging High Power Accelerator Applications Using Accelerator Systems Model (ASM) (p. 456) |
by Berwald, D H |
IFEL First Experimental Results of the BNL Inverse Free Electron Laser Accelerator (p. 461) |
by Van Steenbergen, A |
LIAR : a new program for the modelling and simulation of linear accelerators with high gradients and small emittances(p. 464) |
by Assmann, R W |
Emittance dilution due to slow alignment drifts in the main linacs of the NLC (p. 467) |
by Assmann, R W |
Emittance and trajectory control in the main linacs of the NLC (p. 470) |
by Assmann, R W |
Possible sources of pulse-to-pulse orbit variation in the SLAC linac (p. 473) |
by Assmann, R W |
Beam Emittance, Transmission, and Intensity Distribution Measurements of the Northrop Grumman Corporation 1.76 MeV Pulsed Beamline and Contraband Detection System Target Test Facility (p. 476) |
by Melnychuk, S T |
Commissioning of the 40 keV Injector for a Contraband Detection System Proof-of-Principle Device (p. 479) |
by Melnychuk, S T |
Beamline stability measurements with a stretched wire system in the FFTB (p. 482) |
by Assmann, R W |
Analysis, Choice and Design of Monitors for Beam Diagnostics (p. 485) |
by Rybin, V M |
Undulator and RF-System for Ion Linear Accelerators (p. 487) |
by Masunov, E S |
The On-axis Coupled Accelerating Structure for Application in Proton Linacs with Moderate Heat Loading (p. 490) |
by Kravchuk, L V |
The Data Library for Accelerating Structures Development. RF Parameters of the Drift Tube Accelerating Structure (p. 493) |
by Paramonov, V V |
The First Production and Transport of Radioactive $^{17}$F at ATLAS for Research (p. 496) |
by Harss, B |
An Active Mechanical Stabilization System for Linear Collider Quadrupoles to Compensate Fast Ground Motion (p. 499) |
by Montag, C |
Precision Alignment of BPM's with Quadrupole Magnets (p. 502) |
by Brinker, F |
IREN Test Facility at JINR (p. 505) |
by Antropov, V K |
LUE200 : Driver Linac for Intense Resonant Neutron Spectrometer (IREN)(p. 508) |
by Kaminski, A |
The Neutron Flux Generated by the IREN Linac Dark Current (p. 511) |
by Ivanov, A P |
Secondary Electron Monitor for Electron Bunch Phase Distribution Measurement with Subpicosecond Resolution (p. 514) |
by Tron, A M |
Method of Bunch Phase Distribution Measurement Based on a Møller Scattering (p. 517) |
by Tron, A M |
Bunch Phase Distribution Detector for the ISTRA Ion Linac Beam (p. 518) |
by Tron, A M |
Design, Performance and Production of the Fermilab TESLA RF Input Couplers (p. 521) |
by Champion, M S |
Millimeter-Wave RF Structures (p. 524) |
by Henke, H |
Measurement of the Beam Position in the TESLA Test Facility Linac (p. 527) |
by Lorenz, R |
Present and Future Performance of the DELTA Injector Linac (p. 530) |
by Jankowiak, A |
Status of the TESLA Test Facility Linac (p. 533) |
by Weise, H |
Field enhancement of a superconducting helical undulator with iron (p. 536) |
by Flöttmann, K |
Improved Electron Beam Sources for Compact Linear Accelerators (p. 539) |
by Mishin, A V |
30 Years Operation of 25 MeV Proton Linac I-2 in ITEP at Beam Current of 200-230 mA (p. 542) |
by Lazarev, N V |
ATF linac commissioning (p. 547) |
by Hayano, H |
CLIC test beam facilities : status and results(p. 552) |
by Wilson, Ian H |
Review of Beam Dynamics and Instabilities in Linear Colliders (p. 557) |
by Wanzenberg, R |
Accelerating Structures for Multibunches (p. 565) |
by Dohlus, M |
Laser Ion Source Development for Heavy Ions (p. 570) |
by Haseroth, H |
Beam test results of the INS RFQ/IH linac (p. 575) |
by Arai, S |
Conceptual Design of a Superconducting High-Intensity Proton Linac (p. 580) |
by Chan, K C D |
Smooth Transverse and Longitudinal Focusing in High-Intensity Ion Linacs (p. 587) |
by Billen, J H |
Design issues for high-intensity, high-energy proton accelerators (p. 592) |
by Yamazaki, Y |
Review of New Developments in the Field of Induction Accelerators (Electrons and Ions) (p. 597) |
by Yu, S |
TERA Programme : Medical Applications of Protons and Ions(p. 605) |
by Amaldi, Ugo |
Medical Applications of Electron Linacs (p. 610) |
by Wambersie, A |
The Success and the Future of EPICS (p. 611) |
by Thuot, M E |
Operational Experience with the CEBAF Control System (p. 616) |
by Hovater, C |
Ground Motion Studies with Respect to Linac Performance (p. 621) |
by Seryi, Andrei |
Dark currents (p. 626) |
by Matsumoto, H |
Upgrade to the 8-GeV electron linac for KEKB (p. 633) |
by Enomoto, A |
Contribution to IX international symposium on very high energy cosmic ray interactions (18-24Aug. 1996, Karlsruhe) (p. 641) |
by Ruth, Ronald D |
A damped detuned structure for the next linear collider (p. 644) |
by Miller, R H |
Design of the NLC positron source (p. 647) |
by Tang, H |
A spectral function method applied to the calculation of the wake function for the NLCTA (p. 650) |
by Jones, R M |
Microwave analysis of the damped detuned accelerator structure (p. 653) |
by Seidel, M |
High gradient experiments on NLCTA accelerator structures (p. 656) |
by Wang, J W |
A New Energy Recovering DeQing for Line-Type Pulse Modulators (p. 659) |
by Sharamentov, S I |
A High Intensity Proton Linac Development for Neutron Science Research Program (p. 662) |
by Mizumoto, M |
The R&D Status on the Front End of the High Intensity Proton Accelerator in JAERI (p. 665) |
by Hasegawa, K |
Development of a Negative Ion Source for a High Intensity Linac (p. 668) |
by Oguri, H |
Development of a Superconducting Cavity for the High Intensity Proton Linac in JAERI (p. 671) |
by Ito, N |
Self-Consistent Effects of Space Charge Compensation on Intense Ion Beams (p. 674) |
by Lemaire, J L |
Numerical simulation of ion production processes in EBIS (p. 677) |
by Kalagin, I V |
Front-End Physics Design of APT Linac (p. 680) |
by Nath, S |
Linac Design Algorithm with Symmetric Segments (p. 683) |
by Takeda, H |
Alignment and Steering Scenarios for the APT Linac (p. 686) |
by Stovall, J E |
Physics Design of APT Linac with Normal Conducting RF Cavities (p. 689) |
by Nath, S |
The RF System for the Accelerator Production of Tritium (APT) Low Energy Demontration Accelerator (LEDA) at Los Alamos (p. 692) |
by Lynch, M T |
LANSCE Linac RF Performance for a Long Pulse Spallation Source (p. 695) |
by Lyles, J T M |
LANSCE 201.25 MHz Drift Tube Linac RF Power Status (p. 698) |
by Lyles, J T M |
Development of a 110-mA, 75-keV Proton Injector for High-Current, CW Linacs (p. 701) |
by Sherman, J D |
Recent Operating Experience with the H$^{-}$ Ion Injector at LAMPF/LANSCE (p. 704) |
by Ingalls, W B |
A Design Approach for Superconducting High-Current Ion Linacs (p. 707) |
by Garnett, R W |
Conventional and Superconducting RF Linac Designs for the APT Project (p. 710) |
by Lawrence, G |
Measurements and Numerical Calculations on Hiher-Order-Mode-Dampers within a Stack of 36 Detuned S-Band-Cells (p. 713) |
by Müller, W F |
Measurement of HOM-Propagation through Cavity Chains in Terms of S-Parameters (p. 716) |
by Glock, H W |
The Acceleration of Different Specific Charge Ions in the Heavy Ions RFQ Linac (p. 719) |
by Batalin, V A |
Multiple-Beam RFQ Structure with a Matrix-Array of Beamlets (p. 722) |
by Kapin, V |
22 MV, 0.8A, K$^{+}$ Injector for Heavy IonFusion (p. 725) |
by Eylon, S |
Simulations and Cold Test of an Inductively Detuned RF Cavity for the Relativistic Klystron Two Beam Accelerator (p. 728) |
by Henestroza, E |
Push-pull Linac pairs to generate two drive beams for CLIC multibunch operation (p. 731) |
by Thorndahl, L |
CLIC Waveguide Damped Accelerating Structure Studies (p. 734) |
by Dehler, M |
A code for multibunched beams with wakefields, group velocities and space charge (p. 737) |
by Riche, A J |
Trajectory Correction Algorithms on the latest Model of the CLIC Main LINAC (p. 740) |
by Fischer, C |
Status of the High Current Injector Project (p. 743) |
by Madert, M |
Modeling of the ALS Linac (p. 746) |
by Kim, C H |
High-Power Linac for a US Spallation-Neutron Source (p. 749) |
by Wangler, T P |
Thermal/Structural Design and Fabrication Development of High Power CCDTL and CCL Structures (p. 752) |
by Wood, R L |
Ion Linacs Design with Superconductivity Use (p. 755) |
by Murin, B P |
Regotron as CW High-Power RF Source for Ion Linac (p. 758) |
by Shumakov, I V |
Bunch Length Measurement on CANDELA Photo-Injector (p. 761) |
by Devanz, G |
Status of the TTF Linac Injector (p. 764) |
by Garvey, Terence |
Precise fabrication of 1.3 m-long X-band accelerating structure (p. 767) |
by Higo, T |
A New Optical Design for the BNL Isotope Production Transport Line (p. 770) |
by Higo, T |
Upgrade of the Brookhaven 200 MeV Linac (p. 773) |
by Alessi, J G |
The Source Development Lab Linac at BNL (p. 776) |
by Graves, W S |
Comparisons Between Modeling and Measured Performance of the BNL Linac (p. 779) |
by Raparia, D |
Improved Beam Stability with New Parameter Set for the S-Band Linear Collider (p. 782) |
by Brinkmann, R |
A 375 MW Modulator for a 150 MW Klystron at the S-Band Linear Collider Test Facility at DESY (p. 785) |
by Choroba, S |
Performance of the First Part of the Injector for the S-Band Test Facility at DESY (p. 788) |
by Schmitz, M |
Temperature Stabilisation of the Accelerating Structure (p. 791) |
by Ullrich, F R |
Positron Production for the S-Band and TESLA Linear Colliders (p. 794) |
by Glantz, R |
OTR monitor for ATF linac (p. 797) |
by Naito, T |
Tool for Device Histories at the KEK Linac (p. 800) |
by Kamikubota, N |
A Low Loss Drive Line Concept for Linear Colliders (p. 803) |
by Holtkamp, N |
A Beam Based Interaction Region Feedback for an S-Band Linear Collider (p. 806) |
by Voss, G A |
Multiple Beam Coupled Cavity Microwave Periodic Structure (p. 809) |
by Mishin, A V |
Design and Application of Microwave Structure for Low Velocity Particles (p. 812) |
by Mishin, A V |
Pre-injector of the KEK 2.5-GeV Linac and High-Current Single-Bunch Beam Acceleration (p. 815) |
by Oshawa, S |
KEK-PF slow-positron facility (p. 818) |
by Shidara, T |
Electron-Positron Pre-Injector of VEPP-5 Complex (p. 821) |
by Aleksandrov, A V |
HOM Damping in SBLC Accelerating Section Using Input Coupler (p. 824) |
by Sobenin, N P |
Calculation and Experimental Investigation of Electrodynamics Characteristics of SBLC DLW (p. 827) |
by Sobenin, N P |
Status of the HIMAC Injector (p. 830) |
by Murakami, T |
Development of 700 pps High-Duty-Cycle Line-Type Pulse Modulator (p. 833) |
by Baba, H |
10 MeV 25 KW Industrial Electron Linac (p. 836) |
by Kamino, Y |
Dielectric Response of Particle Beams to Periodic Focusing (p. 839) |
by Brown, N |
A Graphic User Interface for the Particle Optics Code TRANSPORT (p. 842) |
by Gillespie, G H |
Wakefields in the TRACE 3-D Code (p. 845) |
by Lysenko, W P |
Preliminary test of $+ - \Delta$F energy compensation system (p. 848) |
by Kashiwagi, S |
RF and Beam Diagnostic Instrumentation at the Advanced Photon Source (APS) Linear Accelerator (Linac) (p. 851) |
by Grelick, A E |
A New Electron Gun Modulator for the ELETTRA Linac (p. 854) |
by D'Auria, G |
Power Model of Biperiodic DAW Cavity (p. 857) |
by Iwashita, Y |
Double-Feed Coupler for the Linear Collider (p. 860) |
by Watanabe, K |
Development of a Folded-Coaxial RFQ Linac for the RILAC (p. 863) |
by Kamigaito, O |
Key Systems of an 433 MHz Ion Linac for Applied Purposes (p. 866) |
by Vorogushin, M F |
Advances at NPK LUTS 433 MHz Compact Ion Linac (p. 869) |
by Svistunov, Y A |
Simulation on the Emittance of the RF Gun Including the Schottky Effect (p. 872) |
by Huang, Y |
Status of the Dual-Axis Radiographic Hydrotest Facility (p. 875) |
by Burns, M J |
New Directions in Science (p. 881) |
by Knapp, E |
High Luminosity Muon Collider Design (p. 887) |
by Palmer, R B |
Advanced RF power sources for linacs (p. 892) |
by Wilson, P B |
Role of Lasers in Linear Accelerators (p. 897) |
by Chattopadhyay, S |
Status of ALPI and Related Developments of Superconducting Structures (p. 905) |
by Fortuna, G |
Superconducting structures for high intensity linac applications (p. 910) |
by Geschonke, Günther |