| Status of spallation neutron source program in high intensity proton accelerator project (p. 19) |
| by Oyama, Y |
| The European spallation source (ESS) project (p. 27) |
| by Clausen, K N |
| Technical problems on accelerator upgrade path (p. 32) |
| by Yamazaki, Y |
| Innovative approach toward new generation sources (p. 42) |
| by Watanabe, N |
| Neutron scattering instrumentation - A guide to future directions (p. 61) |
| by Crawford, R K |
| Status of neutron complex of INR RAS (p. 71) |
| by Grachev, M I |
| Status of the intense pulsed neutron source (IPNS) (p. 84) |
| by Brown, B S |
| Status report on the Julich ESS related activities (p. 89) |
| by Conrad, H |
| Present status of KENS (p. 93) |
| by Ikeda, S |
| Current status of the Austron project (p. 97) |
| by Rauch, H |
| SINQ 2000 status report (p. 103) |
| by Bauer, G S |
| Asian Oceanian neutron sources (p. 111) |
| by Fujii, Y |
| Status of Neutron scattering in Thailand (p. 115) |
| by Sangariyavanich, A |
| Current status of neutron scattering research and accelerator technology in indonesia (p. 121) |
| by Ridwan |
| Neutron beam research at BARC (India) and international collaboration (p. 131) |
| by Ramanadham, M |
| Neutron beam facilities at the Australian replacement research reactor (p. 136) |
| by Kennedy, S |
| Neutron scattering facilities at china institute of atomic energy-present and future situations (p. 140) |
| by Ye, C T |
| Present status of neutron beam facilities at the research reactor, HANARO, and its future prospect (p. 146) |
| by Lee, C H |
| Summary report - accelerator (Linac) (p. 157) |
| by Yamazaki, Y |
| Summary of instrumentation for elastic scattering (p. 162) |
| by Crawford, R K |
| Summary of spallation UCN source session (p. 164) |
| by Masuda, Y |
| Report of the working group session on neutron optics and devices (p. 169) |
| by Loong, C K |
| Summary report of the working group session: âワcode systems, cross sections and kernelsâ (p. 171) |
| by Filges, D |
| Workshop summary: âワS(Q) measurements by chopper machineâ (p. 173) |
| by Otomo, T |
| Working group session report - Neutron beam line shielding (p. 175) |
| by Russell, G J |
| Workshop summary report on target engineering (p. 179) |
| by Bauer, G S |
| Linac design for the KEK/JAERI joint project (p. 185) |
| by Hasegawa, K |
| JKJ 60 MeV DTL (p. 191) |
| by Naito, F |
| Progress in design of the SNS Linac (p. 197) |
| by Hardekop, R |
| The SNS superconducting Linac architecture (p. 213) |
| by Galambos, J |
| SNS superconducting Linac (p. 220) |
| by Sundelin, R M |
| New developments on the e-p instability at the los Alamos proton storage ring (p. 229) |
| by Macek, R J |
| Overview of 3 GeV rapid cycle synchrotron for JAERI-KEK joint project (p. 240) |
| by Yokomizo, H |
| Technical issues of 3 GeV synchrotron for JAERI-KEK joint project (p. 246) |
| by Kinsho, M |
| Synchrotron RF system (p. 252) |
| by Ohmori, C |
| Development of long-lived cluster and hybrid Carbon stripper foils for high energy, High intensity ion beams (p. 257) |
| by Sugai, I |
| A new laser stripping method by use of multi-photon resonance ionization Enhanced with multi-mirror system (RIMMS) (p. 269) |
| by Suzuki, Y |
| Lattice design of 3 GeV synchrotron for JAERI-KEK joint project (p. 274) |
| by Noda, F |
| RF acceleration system for 3 GeV proton synchrotron in JAERI-KEK joint project (p. 285) |
| by Yamamoto, M |
| Beam monitoring system for intense neutron source (p. 293) |
| by Tron, A M |
| Fast-response Beam Loss Monitor (p. 299) |
| by Kawakubo, T |
| Beam and target monitor using thermocouples (p. 308) |
| by Sato, T |
| A study on 3 GeV proton beam transport line for JSNS (p. 314) |
| by Meigo, S |
| Design issues of a chopper control system (p. 327) |
| by Itoh, S |
| JKJ accelerator timing system (p. 330) |
| by Ohmori, C |
| Timming reference generators and chopper controllers for neutron sources (p. 340) |
| by Nelson, R |
| New capabilities in spectroscopy on pulsed sources: adjustable pulse repetition rate, resolution and line shape (p. 349) |
| by Russina, M |
| Monte Carlo simulation of crystal monochromators/analysers-applications for time-of-flight backscattering spectroscopy with high resolution (p. 354) |
| by Zsigmond, G |
| Quasielastic high-resolution time-of-flight spectrometers employing multi-disk chopper cascades for spallation sources (p. 357) |
| by Lechner, R E |
| Doppler-musical instrument (p. 377) |
| by Sato, T J |
| Monte Carlo simulations of a high-resolution inverse geometry spectrometer on the SNS-long wavelength target station (p. 383) |
| by Bordallo, H N |
| A proposal of neutron spin echo spectrometers at the new pulsed neutron source in japan (p. 390) |
| by Seto, H |
| Application of MSS-Neutron spin echo spectrometer to pulsed neutron sources (p. 394) |
| by Tasaki, S |
| Monte Carlo simulation of NSE at reactor and spallation sources (p. 400) |
| by Zsigmond, G |
| First results from the MAPS spectrometer at ISIS (p. 405) |
| by Frost, C D |
| Estimation of pulse shape functions for high resolution chopper spectrometers by means of the simulation calculation program, McStas (p. 418) |
| by Ohoyama, K |
| Recent progress in the chopper spectrometer, INC (p. 425) |
| by Itoh, S |
| Real time neutron reflectometry using neutron optical imaging (p. 437) |
| by Smith, G S |
| A new thermal neutron reflectometer for free surface at KENS-ARISA (p. 443) |
| by Torikai, N |
| Status report on reflectometer group in Japanese joint project (p. 450) |
| by Takeda, M |
| The extended Q-range small angle diffractometer at SNS - design, Optimization and performance (p. 466) |
| by Zhao, J |
| HIPPO, the high-pressure preferred orientation diffractometer at LANSCE for characterization of bulk materials (p. 473) |
| by Bennett, K |
| The OSIRIS diffractometer and polarization analysis spectrometer at ISIS: New developments and 3He spin-filter polarization analysis (p. 483) |
| by Andersen, K H |
| Design of a neutron diffractometer on biological macromolecules (p. 488) |
| by Tanaka, I |
| Single crystal spectrometer FOX at KENS (p. 492) |
| by Takahashi, M |
| Structure determination of Perovskites, high temperature superconductors and zeolites on the KSN-2 powder neutron diffractometer (p. 494) |
| by Vratislav, S |
| Optimisation of the design of a neutron diffractometer for strain measurement (p. 499) |
| by Daymond, M R |
| New developments of TOF neutron diffraction at the IBR-2 Pulsed reactor (p. 504) |
| by Balagurov, A M |
| Monte Carlo simulation of the neutron guide system for the SNS engineering diffraactometer (p. 513) |
| by Wang, X L |
| Two-dimensional thermometry by using neutron resonance absorption spectrometer DOG (p. 527) |
| by Kamiyama, T |
| A high-sensitivity, non-destructive trace element analysis (p. 532) |
| by Oshima, M |
| Development of optical devices based on neutron refractive optics (p. 537) |
| by Oku, T |
| The neutron silicon lens: an update of the thermal neutron lens results (p. 542) |
| by Johnson, M W |
| A new beam line for practical neutron optical devices (p. 547) |
| by Suzuki, J |
| Development and application of small d-spacing multilayer mirrors by ion polishing (p. 551) |
| by Soyama, K |
| Neutron mirror development for VCN/UCN sources (p. 557) |
| by Kawabata, Y |
| A drabkin energy filter for experiments at a spallation neutron source (p. 572) |
| by Parizzi, A |
| Analyses of diffuse scattering of neutron from supermirror (p. 592) |
| by Bin, C |
| Possible implementation of focusing based on bragg diffraction optics for TOF neutron scattering devices (p. 600) |
| by Mikula, P |
| Test experiments of disk chopper with supermirror converging system (p. 605) |
| by Aizawa, K |
| The development of a single-crystal fiber-array scintillator area detector (p. 615) |
| by Loong, C K |
| Development of detector based on neutron scintillator with wavelength shifting fiber (p. 621) |
| by Adachi, T |
| Helium-filled proportional counter ( 4.2 K) and possible application to high-resolution neutron position detector (p. 624) |
| by Isozumi, Y |
| A large area neutron imaging method using rectangular scintillators with WLS fibers (p. 627) |
| by Toh, K |
| A SrBPO : Eu phosphor for neutron imaging(p. 640) |
| by Sakasai, K |
| The development of neutron detectors for the GEM instrument at ISIS (p. 646) |
| by Rodes, N J |
| New software for neutron data reduction and visualization (p. 657) |
| by Worlton, T |
| Java-based software for chopper-spectrometer data reduction (p. 665) |
| by Chen, D |
| New data acquisition system for the Lujan center (p. 671) |
| by Nelson, R |
| Towards a responsive and interactive graphical user interface for neutron data reduction and visualization (p. 678) |
| by Chatterjee, A |
| A method of precise profile analysis of diffuse scattering for the KENS pulsed neutron (p. 685) |
| by Todate, Y |
| On the analysis of deep inelastic neutron scattering experiments (p. 689) |
| by Blostein, J J |
| How to optimize pulse shape (p. 701) |
| by Kiyanagi, Y |
| Sharp or broad pulse peak for high resolution instruments? (Choice of moderator performance) (p. 713) |
| by Arai, M |
| A proposal to use of mercury as a reflector material for decoupled moderator system (p. 722) |
| by Teshigawara, M |
| Calculation studies of a multi-layer decoupler system for a decoupled hydrogen moderator (p. 734) |
| by Ooi, M |
| A structure analysis on simulated powder diffraction pattern from a proposed moderator in J-SNS (p. 738) |
| by Oikawa, K |
| Renewal of KENS TMRA (p. 747) |
| by Kawai, M |
| Measurements of neutric characyeristics of the KENS target-moderator-reflector assembly (p. 758) |
| by Ino, T |
| Pulse shape measurement of KENS thermal neutron source in the eV region by N-RAS (p. 765) |
| by Noda, H |
| Neutronic performance issues for the spallation neutron source moderators (p. 772) |
| by Iverson, E B |
| Optimization study of coupled hydrogen moderator with extended premoderator (p. 786) |
| by Kai, T |
| Optimization of decoupled hydrogen moderator (p. 793) |
| by Harada, M |
| Effects of reflector parameters on neutronic performance of coupled hydrogen moderator with extended premoderator (p. 808) |
| by Sakata, H |
| Premoderator and reflector effect on the neutronic performance of a decoupled liquid hydrogen moderator (p. 823) |
| by Ooi, M |
| JESSICA, The ESS-like target/reflector mock-up and cold moderator test facility (p. 829) |
| by Tietze-Jaensch, H |
| Proton energy dependence of slow neutron intensity (p. 835) |
| by Teshigawara, M |
| Neutron scattering cross sections of cryogenic moderator materials: some results from the synthetic model (p. 848) |
| by Granada, J R |
| Neutronic studies of a liquid hydrogen-water composite moderator (p. 857) |
| by Tahara, T |
| Neutronic performance of decoupled poisoned and unpoisoned composite moderators for high resolution experiments (p. 868) |
| by Kai, T |
| Experimental studies on neutronics of CH3D and HD cold neutron moderators (p. 873) |
| by Sasaki, K |
| An advanced cold moderator using solid methane pellets (p. 882) |
| by Foster, C A |
| Thermal-hydraulic experiments and analyses on cold moderator (p. 893) |
| by Aso, T |
| Shielding design study for the JAERI/KEK spallation neutron source (p. 907) |
| by Maekawa, F |
| Neutron beam-line shield design for the protein crystallography instrument at the Lujan center (p. 917) |
| by Russell, G J |
| A 3-D model of the beam line shield for the HIPPO instrument at the Lujan center and comparisons with 2-D results (p. 933) |
| by Muhrer, G |
| Measurement of spectrum for thermal neutrons produced from H2O moderator coupled with mercury target (p. 941) |
| by Meigo, S |
| Measurement of induced radioactivity in a spallation neutron field of a mercury target for GeV-proton bombardment (p. 955) |
| by Kasugai, Y |
| High energy particle transport code NMTC/JAM (p. 964) |
| by Niita, K |
| Spallation reactions and energy deposition in heavy target materials comparison of measurements and MC-Calculations (p. 971) |
| by Filges, D |
| Analysis of the AGS experiment on a mercury target with a moderator and a lead reflector bombarded by GeV energy protons (p. 983) |
| by Maekawa, F |
| Current status for TRR-II cold neutron source (p. 995) |
| by Lee, C H |
| Pulsed fusion neutrons production by enhancing the DT formation using laser irradiation (p. 1007) |
| by Takahashi, H |
| Giant pulses of slow neutrons in the LHC Beam dump (p. 1011) |
| by Stavissky, Yu Ya |
| On the possibility of direct investigations of neutron-neutron scattering at lhc beam dump (p. 1019) |
| by Dementiev, A V |
| First experience with the new solid methane moderator at the IBR-2 reactor (p. 1026) |
| by Beliakov, A A |
| Conceptual design studies of a neutron source at the BNL-HFBR facility (p. 1037) |
| by Ludewig, H |
| Design validation test stand guide inserts for the spallation neutron source (p. 1052) |
| by Williams, D M |
| Status report on the cold neutron source of the Garching neutron research facility FRM-II (p. 1058) |
| by Gobrecht, K |
| He-II spallation UCN source (p. 1067) |
| by Masuda, Y |
| Solid-state ultra-cold neutron detectors (p. 1075) |
| by Kitagaki, T |
| Neutronic calculations of cold neutron intensity in a He chamber for ultra cold neutron production (p. 1086) |
| by Ooi, M |
| Optimization of He-II UCN source with spallation neutron source (p. 1094) |
| by Mishima, K |
| Mini-D - a source for ultracold neutrons at FRM-II (p. 1103) |
| by Altarev, I S |
| Overview of the ESS target and moderator R&D (p. 1137) |
| by Conrad, H |
| MEGAPIE, a 1 MW pilot experiment for a liquid metal spallation target (p. 1146) |
| by Bauer, G S |
| A conceptual study on a material irradiation experimental facility with a lead-bismuth spallation target for the accelerator-driven system development (p. 1163) |
| by Sasa, T |
| Present status of spallation target development - JAERI/KEK joint project (p. 1175) |
| by Hino, R |
| Thermal-hydraulic design of cross-flow type mercury target for JAERI/KEK joint project (p. 1188) |
| by Kaminaga, M |
| Analitical study on structural integrity of target vessel (p. 1198) |
| by Kogawa, H |
| Neutron targets of Moscow meson facility - status, problems, prospects (p. 1208) |
| by Sidorkin, S |
| The RADEX facility as a tool for studies of radiation damage under proton and spallation neutron irradiation (p. 1222) |
| by Koptelov, E A |
| Thermal-hydraulic analyses on simplified cross-flow mercury target (p. 1242) |
| by Tagawa, H |
| JAERI/KEK target material program overview (p. 1251) |
| by Kikuchi, K |
| Conceptual design of proton beam window (p. 1259) |
| by Teraoku, T |
| Safety concept for spallation target system - JAERI/KEK joint project (p. 1266) |
| by Kobayashi, K |
| Conceptual design of the handling and storage system for spent target vessel (p. 1276) |
| by Adachi, J |
| Thermal-hydraulic study on cross-flow mercury target (p. 1284) |
| by Terada, A |
| Water flow experiment using the PIV technique and the thermal hydraulic analysis on the cross-flow type mercury target model (p. 1293) |
| by Haga, K |
| Experimental study on mercury target and proton beam window (p. 1304) |
| by Kinoshita, H |
| System dynamic analyses on the JKJ mercury target and cold moderator systems (p. 1314) |
| by Takahashi, T |
| Use of zircaloy 4 material for the pressure vessels of hot and cold neutron sources and beam tubes for research reactors (p. 1328) |
| by Gustmiedl, E |
| Self-regulating characteristics of cold neutron source with annular cylindrical moderator cell (p. 1352) |
| by Kawai, T |
| Specific neutron yield from the extended lead target under incident protons (p. 1365) |
| by Dementyev, A V |
| Neutronics for the SNS long wavelength target station (p. 1372) |
| by Iverson, E B |
| Analytical study of volumetric scroll pump for the cold moderator system (p. 1383) |
| by Kritmaitree, P |