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Fusion Science and Technology
Latest News
Christmas Night
Twas the night before Christmas when all through the houseNo electrons were flowing through even my mouse.
All devices were plugged in by the chimney with careWith the hope that St. Nikola Tesla would share.
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ITER Fuel Cycle Development: EU-PT Activities
D. K. Murdoch, R. Lässer, M. Glugla, A. Mack
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 3-10
Technical Paper | Tritium Science and Technology - Tritium Processing, Transportation, and Storage | doi.org/10.13182/FST05-A869
Successful Experimental Verification of the Tokamak Exhaust Processing Concept of ITER with the CAPER Facility
B. Bornschein et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 11-16
Technical Paper | Tritium Science and Technology - Tritium Processing, Transportation, and Storage | doi.org/10.13182/FST05-A870
Numerical Simulation of Membrane Reactor for Detritiation of Plasma Exhaust Gas
K. Munakata, B. Bornschein, D. Corneli, M. Glugla
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 17-22
Technical Paper | Tritium Science and Technology - Tritium Processing, Transportation, and Storage | doi.org/10.13182/FST05-A871
Thermodynamic Changes in Pd(Pt, Rh) Solid Solutions due to 3He Formation During Tritium Storage
I. Moysan, S. Thiébaut, J. Demoment, B. Décamps, A. Percheron-Guégan
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 23-28
Technical Paper | Tritium Science and Technology - Tritium Processing, Transportation, and Storage | doi.org/10.13182/FST05-A872
Performance of ITER-Relevant Cryopump Panels for Tritiated Gases
Christian Day et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 29-34
Technical Paper | Tritium Science and Technology - Tritium Processing, Transportation, and Storage | doi.org/10.13182/FST05-A873
Tritium Superpermeability: Experimental Investigation and Simulation of Tritium Recirculation in "Prometheus" Setup
R. K. Musyaev et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 35-38
Technical Paper | Tritium Science and Technology - Tritium Processing, Transportation, and Storage | doi.org/10.13182/FST05-A874
Minimisation of the Hydrogenic Inventory of the ITER Neutral Beamline and Torus Cryo-Sorption Pumps
M. Wykes
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 39-42
Technical Paper | Tritium Science and Technology - Tritium Processing, Transportation, and Storage | doi.org/10.13182/FST05-A875
Tests of Tritium Pellet Injector TPI-1 Under Closed Cycle Mode
A. I. Vedeneev et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 43-46
Technical Paper | Tritium Science and Technology - Tritium Processing, Transportation, and Storage | doi.org/10.13182/FST05-A876
Tritium Pumps for ITER Roughing System
Alexander Antipenkov, Christian Day, Rainer Lässer, August Mack, Robert Wagner
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 47-50
Technical Paper | Tritium Science and Technology - Tritium Processing, Transportation, and Storage | doi.org/10.13182/FST48-47
Studies on Hydrogen Extraction Characteristics of Proton-Conducting Ceramics and Their Applications to a Tritium Recovery System and a Tritium Monitor
M. Tanaka et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 51-54
Technical Paper | Tritium Science and Technology - Tritium Processing, Transportation, and Storage | doi.org/10.13182/FST05-A878
Memory Effects in Measurements of Low Tritium Concentrations as Required for the Outlet of the TEP System of the ITER Fuel Cycle
D. Corneli et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 55-58
Technical Paper | Tritium Science and Technology - Tritium Processing, Transportation, and Storage | doi.org/10.13182/FST05-A879
Shell Temperatures for a Single-Heater Diffuser
J. E. Klein
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 59-62
Technical Paper | Tritium Science and Technology - Tritium Processing, Transportation, and Storage | doi.org/10.13182/FST05-A880
Interlinked Test Results for Fusion Fuel Processing and Blanket Tritium Recovery Systems Using Cryogenic Molecular Sieve Bed
Toshihiko Yamanishi et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 63-66
Technical Paper | Tritium Science and Technology - Tritium Processing, Transportation, and Storage | doi.org/10.13182/FST05-A881
Investigation of Isotope Effects in the Gas Streams Supplied by a 1:1 ITER Storage Bed Using a Micro Gas Chromatography
S. Beloglazov, M. Glugla, R. Wagner, E. Fanghänel, S. Grünhagen
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 67-70
Technical Paper | Tritium Science and Technology - Tritium Processing, Transportation, and Storage | doi.org/10.13182/FST05-A882
Study on Helium Blanketing Effect of Hydrogen-Storage Alloy
Fan Ying, Tan Yun
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 71-74
Technical Paper | Tritium Science and Technology - Tritium Processing, Transportation, and Storage | doi.org/10.13182/FST05-A883
Performance of 500kCi Tritium Storage Vessel for WTRF
S. Paek et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 75-78
Technical Paper | Tritium Science and Technology - Tritium Processing, Transportation, and Storage | doi.org/10.13182/FST05-A884
Metal Hydride Wall Stress Measurements on a Four-Inch Short (FISH) Bed
E. G. Estochen, J. E. Klein
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 79-82
Technical Paper | Tritium Science and Technology - Tritium Processing, Transportation, and Storage | doi.org/10.13182/FST48-79
Palladium-Coated Kieselguhr for Simultaneous Separation and Storage of Tritium
Robert H. Hsu, James E. Klein
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 83-87
Technical Paper | Tritium Science and Technology - Tritium Processing, Transportation, and Storage | doi.org/10.13182/FST48-83
Processing Tritiated Water at the Savannah River Site: A Production-Scale Demonstration of a Palladium Membrane Reactor
Kevin L. Sessions
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 91-96
Technical Paper | Tritium Science and Technology - Tritium Science and Technology - Detritiation, Purification, and Isotope Separation | doi.org/10.13182/FST48-91
TRENTA Facility for Trade-Off Studies Between Combined Electrolysis Catalytic Exchange and Cryogenic Distillation Processes
I. Cristescu et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 97-101
Technical Paper | Tritium Science and Technology - Tritium Science and Technology - Detritiation, Purification, and Isotope Separation | doi.org/10.13182/FST48-97
Water Detritiation: Better SCKCEN Catalysts for Liquid Phase Catalytic Exchange
Aimé Bruggeman, Johan Braet, Sven Vanderbiesen
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 102-107
Technical Paper | Tritium Science and Technology - Tritium Science and Technology - Detritiation, Purification, and Isotope Separation | doi.org/10.13182/FST05-A889
A New Hydrophobic Catalyst for Tritium Separation from Nuclear Effluents
I. Popescu, Gh. Ionita, I. Stefanescu, A. Kitamoto
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 108-111
Technical Paper | Tritium Science and Technology - Tritium Science and Technology - Detritiation, Purification, and Isotope Separation | doi.org/10.13182/FST05-41
Endurance Test for SCK-CEN Catalytic Mixed Packing, Proposed for Water Detritiation System at JET
Gh. Ionita et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 112-115
Technical Paper | Tritium Science and Technology - Tritium Science and Technology - Detritiation, Purification, and Isotope Separation | doi.org/10.13182/FST05-A891
Experimental Investigation in Order to Determine Catalytic Package Performances in Case of Tritium Transfer from Water to Gas
Anisia Bornea, M. Peculea, M. Zamfirache, Carmen Varlam
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 116-119
Technical Paper | Tritium Science and Technology - Tritium Science and Technology - Detritiation, Purification, and Isotope Separation | doi.org/10.13182/FST05-A892
Modeling of the Process of Three-Isotope (H, D, T) Exchange Between Hydrogen Gas and Water Vapour on Pt-SDBC Catalyst over a Wide Range of Deuterium Concentration
O. A. Fedorchenko, I. A. Alekseev, A. S. Tchijov, V. V. Uborsky
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 120-123
Technical Paper | Tritium Science and Technology - Tritium Science and Technology - Detritiation, Purification, and Isotope Separation | doi.org/10.13182/FST48-120
Development and Improvement of Devices for Hydrogen Generation and Oxidation in Water Detritiation Facility Based on CECE Technology
M. Rozenkevich et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 124-127
Technical Paper | Tritium Science and Technology - Tritium Science and Technology - Detritiation, Purification, and Isotope Separation | doi.org/10.13182/FST05-A894
New Contact Device for Separation of Hydrogen Isotopes in the Water-Hydrogen System
I. L. Rastunova, M. B. Rozenkevich
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 128-131
Technical Paper | Tritium Science and Technology - Tritium Science and Technology - Detritiation, Purification, and Isotope Separation | doi.org/10.13182/FST05-A895
Hydrogen Isotope Separation by Combined Electrolysis Catalytic Exchange Under Reduced Pressure
T. Sugiyama et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 132-135
Technical Paper | Tritium Science and Technology - Tritium Science and Technology - Detritiation, Purification, and Isotope Separation | doi.org/10.13182/FST05-A896
Tritium Separation by Electrolysis Using Solid Polymer Electrolyte
Y. Ogata, Y. Sakuma, N. Ohtani, M. Kotaka
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 136-139
Technical Paper | Tritium Science and Technology - Tritium Science and Technology - Detritiation, Purification, and Isotope Separation | doi.org/10.13182/FST05-A897
Tritium Isotope Separation Using Adsorption-Distillation Column
Satoshi Fukada
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 140-143
Technical Paper | Tritium Science and Technology - Tritium Science and Technology - Detritiation, Purification, and Isotope Separation | doi.org/10.13182/FST05-A898
A New Kind of Column Materials for Gas Chromatographic Hydrogen Isotope Separation
M. Hara et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 144-147
Technical Paper | Tritium Science and Technology - Tritium Science and Technology - Detritiation, Purification, and Isotope Separation | doi.org/10.13182/FST05-A899
Multi-Component Adsorption Behavior of Hydrogen Isotopes on Zeolite 5A and 13X at 77.4 K
Kenji Kotoh, Kazuhiko Kudo
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 148-151
Technical Paper | Tritium Science and Technology - Tritium Science and Technology - Detritiation, Purification, and Isotope Separation | doi.org/10.13182/FST05-A900
A Study on a Tritium Separation Process Using Self-Developing Gas Chromatography with Pd-Pt Alloy
S. Kojima et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 152-155
Technical Paper | Tritium Science and Technology - Tritium Science and Technology - Detritiation, Purification, and Isotope Separation | doi.org/10.13182/FST05-A901
Hydrogen Isotope Separation Factor Measurement for Single Stage Hydrogen Separators and Parameters for a Large-Scale Separation System
D. L. Luo, Y. F. Xiong, J. F. Song, G. Q. Huang
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 156-158
Technical Paper | Tritium Science and Technology - Tritium Science and Technology - Detritiation, Purification, and Isotope Separation | doi.org/10.13182/FST05-A902
Thermal Cycling Absorption Process (TCAP): Instrument and Simulation Development Status at Los Alamos National Laboratory
Angela A. Arias et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 159-162
Technical Paper | Tritium Science and Technology - Tritium Science and Technology - Detritiation, Purification, and Isotope Separation | doi.org/10.13182/FST05-A903
Measurement of Breakthrough Curves on Pressure Swing Adsorption for Hydrogen Isotope Separation
T. Sugiyama, Y. Asakura, T. Uda, K. Kotoh
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 163-166
Technical Paper | Tritium Science and Technology - Tritium Science and Technology - Detritiation, Purification, and Isotope Separation | doi.org/10.13182/FST05-A904
Kinetic Method for Hydrogen-Deuterium-Tritium Mixture Distillation Simulation
A. B. Sazonov, Z. G. Kagramanov, E. P. Magomedbekov
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 167-170
Technical Paper | Tritium Science and Technology - Tritium Science and Technology - Detritiation, Purification, and Isotope Separation | doi.org/10.13182/FST05-A905
Testing of a Prototype SAES St909 Getter Bed for Conditioning Gas to a Tritium Stripper System
Robert H. Hsu, Jeffrey S. Hölder
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 171-174
Technical Paper | Tritium Science and Technology - Tritium Science and Technology - Detritiation, Purification, and Isotope Separation | doi.org/10.13182/FST05-A906
Chronic Release of Tritium from SS316 at Ambient Temperature: Correlation Between Depth Profile and Tritium Liberation
Yuji Torikai, Ralf-Dieter Penzhorn, Masao Matsuyama, Kuniaki Watanabe
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 177-181
Technical Paper | Tritium Science and Technology - Decontamination and Waste | doi.org/10.13182/FST05-4
A Review of the Different Methods to Quantify Tritium Inside Waste Drums via Helium-3 Mass Spectrometric Measurements
D. Demange et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 182-187
Technical Paper | Tritium Science and Technology - Decontamination and Waste | doi.org/10.13182/FST05-A908
Oxidation of Tritiated Organic Liquid Waste
Johan Braet, Aimé Bruggeman
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 188-193
Technical Paper | Tritium Science and Technology - Decontamination and Waste | doi.org/10.13182/FST05-A909
Dedicated Procedures for the Detritiation of Steel and Graphite
C. Poletiko, P. Trabuc, J. Durand, B. Tormos, L. Pignoly
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 194-199
Technical Paper | Tritium Science and Technology - Decontamination and Waste | doi.org/10.13182/FST05-A910
Comparison and Evaluation of Various Tritium Decontamination Techniques and Processes
C. A. Gentile, S. W. Langish, C. H. Skinner, L. P. Ciebiera
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 200-203
Technical Paper | Tritium Science and Technology - Decontamination and Waste | doi.org/10.13182/FST05-A911
Simplified Estimation of Tritium Inventory in Stainless Steel
R. Scott Willms
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 204-207
Technical Paper | Tritium Science and Technology - Decontamination and Waste | doi.org/10.13182/FST05-A912
Study of Tritium Distribution in Various Metals
A. N. Perevezentsev et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 208-211
Technical Paper | Tritium Science and Technology - Decontamination and Waste | doi.org/10.13182/FST48-208
Detritiation of the JET Carbon Tiles by Flame Heating
A. Perevezentsev et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 212-215
Technical Paper | Tritium Science and Technology - Decontamination and Waste | doi.org/10.13182/FST05-42
Decontamination, Dismantling and Refurbishing of the PETRA Glove Box at the Tritium Laboratory, Karlsruhe
C. J. Caldwell-Nichols, M. Glugla, L. Dörr, U. Berndt
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 216-219
Technical Paper | Tritium Science and Technology - Decontamination and Waste | doi.org/10.13182/FST05-A915
Optimal Parameter Determination for Tritiated Water Storage in Polyacrylic Networks
C. Postolache, Lidia Matei, Rodica Georgescu, Gh. Ionita
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 220-223
Technical Paper | Tritium Science and Technology - Decontamination and Waste | doi.org/10.13182/FST05-A916
FT-IR Study on Behavior of Surface Hydroxyls Under Irradiation of Energetic Particles
S. Tanaka, K. Chiba, Y. Oya
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 224-227
Technical Paper | Tritium Science and Technology - Decontamination and Waste | doi.org/10.13182/FST05-A917
Conditioning Matrices of Liquid Scintillation Cocktails Contaminated with Tritium
Magdalena Dianu
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 228-229
Technical Paper | Tritium Science and Technology - Decontamination and Waste | doi.org/10.13182/FST05-A918
Sorption Behaviour of Armenian Natural Zeolites
Y. Keheyan et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 230-233
Technical Paper | Tritium Science and Technology - Decontamination and Waste | doi.org/10.13182/FST05-A919
Operating Experience of the Tritium Laboratory at CRL
C. L. Gallagher, K. D. McCrimmon
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 237-242
Technical Paper | Tritium Science and Technology - Tritium Handling Facilities | doi.org/10.13182/FST05-A920
The Safety and Tritium Applied Research (STAR) Facility: Status-2004
R. A. Anderl et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 243-249
Technical Paper | Tritium Science and Technology - Tritium Handling Facilities | doi.org/10.13182/FST48-243
Technical and Scientific Aspects of the JET Trace-Tritium Experimental Campaign
T. T. C. Jones et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 250-257
Technical Paper | Tritium Science and Technology - Tritium Handling Facilities | doi.org/10.13182/FST05-A922
Tritium Systems Test Assembly (TSTA) Stabilization
Chuck Tesch, Richard Carlson, Roy Michelotti, Mike Rogers, Scott Willms
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 258-261
Technical Paper | Tritium Science and Technology - Tritium Handling Facilities | doi.org/10.13182/FST05-A923
The Closed Tritium Cycle of the Tritium Laboratory Karlsruhe
L. Dörr et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 262-267
Technical Paper | Tritium Science and Technology - Tritium Handling Facilities | doi.org/10.13182/FST05-A924
Tritium Related Studies Within the JET Fusion Technology Work Programme
S. Rosanvallon et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 268-273
Technical Paper | Tritium Science and Technology - Tritium Handling Facilities | doi.org/10.13182/FST05-A925
New Safety and Technical Challenges and Operational Experience on the JET First Trace Tritium Experiment
R. J. H. Pearce et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 274-279
Technical Paper | Tritium Science and Technology - Tritium Handling Facilities | doi.org/10.13182/FST05-A926
Neutral Beam Injection in the JET Trace Tritium Experiment
E. Surrey et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 280-285
Technical Paper | Tritium Science and Technology - Tritium Handling Facilities | doi.org/10.13182/FST05-A927
Development of a Heavy Water Detritiation Plant for PIK Reactor
I. A. Alekseev et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 286-289
Technical Paper | Tritium Science and Technology - Tritium Handling Facilities | doi.org/10.13182/FST05-A928
The Prediction of Tritium Level Reduction of Wolsong NPPs by Heavy Water Detritiation with WTRF
K. M. Song et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 290-293
Technical Paper | Tritium Science and Technology - Tritium Handling Facilities | doi.org/10.13182/FST05-A929
Cryogenic Tritium Target
A. A. Yukhimchuk et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 294-297
Technical Paper | Tritium Science and Technology - Tritium Handling Facilities | doi.org/10.13182/FST05-A930
New Systems for Waste Processing of Tritium-Containing Gases at the Savannah River Site
A. S. Poore, W. D. Jacobs
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 298-301
Technical Paper | Tritium Science and Technology - Tritium Handling Facilities | doi.org/10.13182/FST05-A931
Tritium Release Behavior from JT-60U Vacuum Vessel During Air Exposure Phase and Wall Conditioning Phase
K. Isobe et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 302-305
Technical Paper | Tritium Science and Technology - Tritium Handling Facilities | doi.org/10.13182/FST05-A932
Fuel Retention over a Full Day of Experiments in JET
T. Loarer et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 306-309
Technical Paper | Tritium Science and Technology - Tritium Handling Facilities | doi.org/10.13182/FST05-A933
High-Pressure Tritium Targets for Research in Muon-Catalyzed Fusion
V. V. Perevozchikov et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 310-313
Technical Paper | Tritium Science and Technology - Tritium Handling Facilities | doi.org/10.13182/FST05-A934
Tritium Accounting Stability of a ZrCo Bed with "In-Bed" Gas Flowing Calorimetry
Takumi Hayashi, Takumi Suzuki, Masayuki Yamada, Masataka Nishi
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 317-323
Technical Paper | Tritium Science and Technology - Tritium Measurement, Monitoring, and Accountancy | doi.org/10.13182/FST05-A935
In-Situ Measurement of High Level Tritiated Water by Bremsstrahlung Counting
Masao Matsuyama, Yuji Torikai, Kuniaki Watanabe
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 324-331
Technical Paper | Tritium Science and Technology - Tritium Measurement, Monitoring, and Accountancy | doi.org/10.13182/FST48-324
Storage and Assay of Tritium in STAR
Glen R. Longhurst, Robert A. Anderl, Robert J. Pawelko, Carl J. Stoots
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 332-336
Technical Paper | Tritium Science and Technology - Tritium Measurement, Monitoring, and Accountancy | doi.org/10.13182/FST48-331
Tritium Accountancy Issues of the ITER Fuel Cycle
R. Lässer, D. K. Murdoch, M. Glugla
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 337-342
Technical Paper | Tritium Science and Technology - Tritium Measurement, Monitoring, and Accountancy | doi.org/10.13182/FST05-A938
ITER Dynamic Tritium Inventory Modeling Code
Ioana-R. Cristescu, L. Dörr, A. Busigin, D. Murdoch
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 343-348
Technical Paper | Tritium Science and Technology - Tritium Measurement, Monitoring, and Accountancy | doi.org/10.13182/FST05-A939
High-Concentration Tritium Sensor
Stephen N. Paglieri, Scott Richmond, Ronny C. Snow, John S. Morris, Dale G. Tuggle
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 349-353
Technical Paper | Tritium Science and Technology - Tritium Measurement, Monitoring, and Accountancy | doi.org/10.13182/FST05-A940
A New Tritium Gas Generator for the Activity Standardization of Tritiated Water by Internal Gas Proportional Counting
D. Stanga, L. Moreau, J. L. Picolo, P. Cassette
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 354-357
Technical Paper | Tritium Science and Technology - Tritium Measurement, Monitoring, and Accountancy | doi.org/10.13182/FST05-A941
High Resolution Vacuum Calorimeter
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 358-361
Technical Paper | Tritium Science and Technology - Tritium Measurement, Monitoring, and Accountancy | doi.org/10.13182/FST05-A942
Apparatus for the Calibration/Certification of Direct Reading Tritium in Air Monitors
R. L. Otlet, I. D. Mather, M. Pottinger
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 362-365
Technical Paper | Tritium Science and Technology - Tritium Measurement, Monitoring, and Accountancy | doi.org/10.13182/FST05-A943
A Compact Diffusion Sampler for Environmental Applications Requiring HTO or HTO + HT Determinations
R. L. Otlet, A. J. Walker, I. D. Mather
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 366-369
Technical Paper | Tritium Science and Technology - Tritium Measurement, Monitoring, and Accountancy | doi.org/10.13182/FST05-A944
Development of a Novel Contamination Resistant Ion Chamber for Process Tritium Measurement and Use in the JET First Trace Tritium Experiment
L. B. C. Worth, R. J. H. Pearce, J. Bruce, J. Banks, S. Scales
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 370-373
Technical Paper | Tritium Science and Technology - Tritium Measurement, Monitoring, and Accountancy | doi.org/10.13182/FST05-A945
The Investigation of Tritium Contamination of Thermonuclear Material Surfaces Using Nonuniform Magnetic Systems
V. E. Cherkovets et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 374-377
Technical Paper | Tritium Science and Technology - Tritium Measurement, Monitoring, and Accountancy | doi.org/10.13182/FST05-A946
International Benchmark Activity of Tritium Measurement of Blanket Neutronics
Kentaro Ochiai, Yury Velzilov, Takeo Nishitani, Paola Batistoni, Klaus Seidel
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 378-381
Technical Paper | Tritium Science and Technology - Tritium Measurement, Monitoring, and Accountancy | doi.org/10.13182/FST05-A947
Calibration of Tritium Monitors Using Saturated Vapour of Tritiated Water
E. L. Grigorescu, A. C. Razdolescu, M. Sahagia, P. Cassette, M. Tanase
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 382-385
Technical Paper | Tritium Science and Technology - Tritium Measurement, Monitoring, and Accountancy | doi.org/10.13182/FST05-A948
Transfer Phenomena of Tritiated Water from Air to Water
Masabumi Nishikawa, Hiroki Takata, Toshiharu Takeishi, Kozo Kamimae
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 386-389
Technical Paper | Tritium Science and Technology - Tritium Measurement, Monitoring, and Accountancy | doi.org/10.13182/FST05-A949
Portable Intelligent Tritium in Air Monitor
L. Purghel et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 390-392
Technical Paper | Tritium Science and Technology - Tritium Measurement, Monitoring, and Accountancy | doi.org/10.13182/FST05-A950
A Passive Diffusion Sampler for HT- and HTO-in-Air
R. A. Surette, J. C. Nunes
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 393-396
Technical Paper | Tritium Science and Technology - Tritium Measurement, Monitoring, and Accountancy | doi.org/10.13182/FST05-A951
Development of a Low-Level Tritium Air Monitor
Yoichi Sakuma et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 397-400
Technical Paper | Tritium Science and Technology - Tritium Measurement, Monitoring, and Accountancy | doi.org/10.13182/FST05-A952
Application of New Technologies for Gaseous Tritium Recovery and Monitoring
Y. Asakura et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 401-404
Technical Paper | Tritium Science and Technology - Tritium Measurement, Monitoring, and Accountancy | doi.org/10.13182/FST05-A953
Isotopic Separation Analysis of Infinitesimal Concentrations of Hydrogen Using Trace Reduction Detector
Takao Kawano, Naohiro Tsuboi, Hirotsugu Tsujii, Yamato Asakura, Tatsuhiko Uda
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 405-408
Technical Paper | Tritium Science and Technology - Tritium Measurement, Monitoring, and Accountancy | doi.org/10.13182/FST05-A954
A New Solid State Tritium Surface Monitor
R. Scott Willms, David Dogruel, Richard Myers, Richard Farrell
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 409-412
Technical Paper | Tritium Science and Technology - Tritium Measurement, Monitoring, and Accountancy | doi.org/10.13182/FST05-A955
Evaluation of Unfixed Tritium Surface Contamination
C. Postolache, Lidia Matei
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 413-415
Technical Paper | Tritium Science and Technology - Tritium Measurement, Monitoring, and Accountancy | doi.org/10.13182/FST05-A956
In-Bed Accountability Development for a Passively Cooled, Electrically Heated Hydride (PACE) Bed
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 416-419
Technical Paper | Tritium Science and Technology - Tritium Measurement, Monitoring, and Accountancy | doi.org/10.13182/FST05-A957
Activities of the EMRAS Tritium/C14 Working Group
P. A. Davis, M. Balonov, A. Venter
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 423-430
Technical Paper | Tritium Science and Technology - Containment, Safety, and Environment | doi.org/10.13182/FST05-A958
Tritium Measurements in Slovenia - Chronology Till 2004
Jasmina Kozar Logar, Janja Vaupotic, Ivan Kobal
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 431-434
Technical Paper | Tritium Science and Technology - Containment, Safety, and Environment | doi.org/10.13182/FST05-A959
Performance Improvements of a Tritiated Water Recovery System
L. K. Heung, R. H. Hsu, J. L. Rice, T. S. McGee
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 435-440
Technical Paper | Tritium Science and Technology - Containment, Safety, and Environment | doi.org/10.13182/FST05-A960
Analysis of the Consequences of an Acute Atmospheric Release of Tritium
Philippe Guétat, Luc Patryl
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 441-446
Technical Paper | Tritium Science and Technology - Containment, Safety, and Environment | doi.org/10.13182/FST05-A961
Validation of 3-D CFD Model of Tritium Transport in the Atmosphere
Alexey V. Golubev, Sergey V. Mavrin, Vladimir A. Pavlovsky, Valentin V. Smirnov, Vladimir G. Rogachev
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 447-451
Technical Paper | Tritium Science and Technology - Containment, Safety, and Environment | doi.org/10.13182/FST05-A962
Evaluation of Tritium Behavior in the Epoxy Painted Concrete Wall of ITER Hot Cell
Hirofumi Nakamura, Takumi Hayashi, Kazuhiro Kobayashi, Masataka Nishi
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 452-455
Technical Paper | Tritium Science and Technology - Containment, Safety, and Environment | doi.org/10.13182/FST05-A963
Study on Tritium Removal Performance by Gas Separation Membrane with Reflux Flow for Tritium Removal System of Fusion Reactor
Yasunori Iwai, Toshihiko Yamanishi, Takumi Hayashi, Masataka Nishi
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 456-459
Technical Paper | Tritium Science and Technology - Containment, Safety, and Environment | doi.org/10.13182/FST05-A964
Case Study on Unexpected Tritium Release Happened in a Ventilated Room of Fusion Reactor
Yasunori Iwai, Takumi Hayashi, Kazuhiro Kobayashi, Masataka Nishi
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 460-463
Technical Paper | Tritium Science and Technology - Containment, Safety, and Environment | doi.org/10.13182/FST05-A965
Simulation of Tritium Spreading in Controlled Areas After a Tritium Release
Ioana-R. Cristescu, J. Travis, Y. Iwai, K. Kobayashi, D. Murdoch
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 464-467
Technical Paper | Tritium Science and Technology - Containment, Safety, and Environment | doi.org/10.13182/FST05-A966
Verification and Validation of the Tritium Transport Code TMAP7
Glen R. Longhurst, James Ambrosek
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 468-471
Technical Paper | Tritium Science and Technology - Containment, Safety, and Environment | doi.org/10.13182/FST05-A967
Assessment of the Environmental Impact of Tritium Release from Wolsong Tritium Removal Facility at the Postulated Accident
Daesik Yook, KunJai Lee, Hongsuk Chung
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 472-475
Technical Paper | Tritium Science and Technology - Containment, Safety, and Environment | doi.org/10.13182/FST05-A968
The Oxidation Performance Test of Detritiation System Under Existence of CO and CO2
Kazuhiro Kobayashi, Osamu Terada, Hidenori Miura, Takumi Hayashi, Masataka Nishi
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 476-479
Technical Paper | Tritium Science and Technology - Containment, Safety, and Environment | doi.org/10.13182/FST05-A969
Development of High Performance Catalyst for Oxidation of Tritiated Hydrogen and Methane Gases
Tatsuhiko Uda, Takahiko Sugiyama, Yamato Asakura, Kenzo Munakata, Masahiro Tanaka
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 480-483
Technical Paper | Tritium Science and Technology - Containment, Safety, and Environment | doi.org/10.13182/FST05-A970
Estimation of Accumulated Dose to Residents due to Tritium Release from Fusion Facilities
Masahiro Saito
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 484-487
Technical Paper | Tritium Science and Technology - Containment, Safety, and Environment | doi.org/10.13182/FST05-A971
Behaviour of Tritium in the Waters of the River Tagus
A. Baeza, E. Garcia, C. Miró, A. Rodríguez, M. M. Sequeira
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 488-491
Technical Paper | Tritium Science and Technology - Containment, Safety, and Environment | doi.org/10.13182/FST05-A972
Tritium Dose Assessments with Regulatory and Advanced Computer Models for the Potential European ITER Site Vandellós (Spain)
W. Raskob, M. Velarde, J. M. Perlado
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 492-495
Technical Paper | Tritium Science and Technology - Containment, Safety, and Environment | doi.org/10.13182/FST05-A973
Monitoring of Airborne Tritium in Vicinity of Radioluminescent Light Manufacturer
M. Ilin, P. Thompson, H. Rabski
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 496-499
Technical Paper | Tritium Science and Technology - Containment, Safety, and Environment | doi.org/10.13182/FST05-A974
Development and Validation of an Atmospheric Dispersion Model for Tritium Using the IAEA Biomass Scenario
K. Yamamoto, T. Sakashita, K. Miyamoto
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 500-503
Technical Paper | Tritium Science and Technology - Containment, Safety, and Environment | doi.org/10.13182/FST05-A975
Observed and Modeled Tritium Concentrations in the Terrestrial Food Chain near a Continuous Atmospheric Source
P. A. Davis, S. B. Kim, S. L. Chouhan, W. J. G. Workman
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 504-507
Technical Paper | Tritium Science and Technology - Containment, Safety, and Environment | doi.org/10.13182/FST05-A976
Unique Features of Pine Tree for Monitoring and Modeling of Environmental Tritium
Y. Inoue, K. Miyamoto, S. Fuma, H. Takeda
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 508-511
Technical Paper | Tritium Science and Technology - Containment, Safety, and Environment | doi.org/10.13182/FST05-A977
Tritium Concentration in Rainwater Samples in Northwestern Greece
K. Stamoulis, K. Ioannides, P. Kassomenos, A. Vlachogianni
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 512-515
Technical Paper | Tritium Science and Technology - Containment, Safety, and Environment | doi.org/10.13182/FST05-A978
A Study to Estimate Tritium Concentrations of 1 Bq/L or Lower in Water Samples
Takeshi Muranaka, Nagayoshi Shima, Hisayoshi Sato
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 516-519
Technical Paper | Tritium Science and Technology - Containment, Safety, and Environment | doi.org/10.13182/FST05-A979
Electrolytic Enrichment of Tritium with Solid Polymer Electrolyte for Application to Environmental Measurements
Noriyuki Momoshima, Yusaku Nagao, Takahiro Toyoshima
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 520-523
Technical Paper | Tritium Science and Technology - Containment, Safety, and Environment | doi.org/10.13182/FST05-A980
Thermodesorption of Vanadium-Hydride-Based Hydrogen Isotope Sources
A. N. Golubkov, A. A. Kononenko, A. A. Yukhimchuk
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 527-533
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A981
Helium-Charged La-Ni-Al Thin Films Deposited by Magnetron Sputtering
Liqun Shi et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 534-538
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A982
Helium Nano-Bubble Evolution in Aging Metal Tritides
Donald F. Cowgill
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 539-544
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST48-539
Hydrogen, Deuterium and Tritium in Palladium: An Elastic Constants Study
H. T. Bach, R. B. Schwarz, D. G. Tuggle
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 545-550
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A984
Distribution of Hydrogen Isotopes, Carbon and Beryllium on In-Vessel Surfaces in the Various JET Divertors
J. P. Coad et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 551-556
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A985
Retention of Hydrogen Isotopes in Divertor Tiles Used in JT-60U
Y. Hirohata et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 557-560
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A986
Release Behavior of Hydrogen Isotopes from JT-60U Graphite Tiles
K. Katayama et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 561-564
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A987
Recovery of Retained Tritium from Graphite Tile of JT-60U
Toshiharu Takeishi, Kazunari Katayama, Masabumi Nishikawa, Naoyuki Miya, Kei Masaki
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 565-568
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A988
Fuel Retention in the Gas Box Divertor of JET
M. Rubel et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 569-572
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A989
Detailed Tritium Distribution on the JET MK IIA Divertor Tiles
K. Sugiyama, T. Tanabe, N. Bekris, M. Glugla, J. P. Coad
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 573-576
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A990
Tritium Retention in the Gap Between the Plasma-Facing Carbon Tiles Used in D-T Discharge Phase in JET and TFTR
T. Tanabe et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 577-580
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A991
Hydrogen Retention in a Tungsten Re-Deposition Layer Formed by Hydrogen RF Plasma
T. Kawasaki, Y. Manabe, K. Katayama, T. Takeishi, M. Nishikawa
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 581-584
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A992
Hydrogen Isotope Exchange Properties of Porous Solids Containing Hydrogen
L. K. Heung, G. C. Staack
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 585-588
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A993
Study of Tritium Behavior in Cement Paste
H. Takata, T. Motoshima, S. Satake, M. Nishikawa
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 589-592
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A994
Reemission of Tritium from Tritium-Sorbed Molecular Sieve
Xiaohua Cao, Guijun Cheng
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 593-596
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A995
Hydrogen Isotope Behavior in Type 316 Stainless Steel Sorbed by Various Methods
Y. Oya et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 597-600
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A996
Observations on 3He Release from ERT2 Films
T. Venhaus, J. Poths
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 601-604
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A997
H-Isotopes Solubility in Sn-Li Alloys: A Theoretical Calculation from Thermodynamic Data
L. A. Sedano
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 605-608
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A998
Modeling of the Tritium Impact on Mechanical Properties of Structural Materials by Radiogenic Helium and Hydrogen Synergetic Effect Technique
I. E. Boitsov, S. K. Grishechkin, S. V. Zlatoustovskiy, A. A. Yukhimchuk
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 609-612
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A999
Calculated and Experimental Study of Metal Saturation with Helium-3
I. L. Malkov, A. A. Yukhimchuk, S. V. Zlatoustovskiy
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 613-616
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A1000
Isotope Effect in Hydrogen Transport in BCC-Structured Materials: Polycrystalline Tungsten and Reduced Activation Ferritic-Martensitic Steel
G. A Esteban, F. Legarda, A. Perujo
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 617-620
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A1001
New Conceptual Design of a Test Module Assembly for Tritium Permeation Experiment
S. O'hira et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 621-624
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A1002
Evaluation of Tritium Permeation from Lithium Loop of IFMIF Target System
Kenjiro Matsuhiro, Hirofumi Nakamura, Takumi Hayashi, Hiroo Nakamura, Masayoshi Sugimoto
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 625-628
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A1003
Sensitivity Analysis of Tritium Permeation into the FW-Coolant in ITER
M. Iseli
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 629-633
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A1004
Irradiation Testing of Blanket Materials at the HFR Petten with On Line Tritium Monitoring
A. J. Magielsen, J. G. van der Laan, J. B. J. Hegeman, M. P. Stijkel, M. A. G. Ooijevaar
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 634-637
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A1005
Correlation Between Annihilation of Radiation Defects and Tritium Release in Neutron-Irradiated LiAlO2
M. Oyaidzu et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 638-641
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A1006
Lithium Ceramic Blankets for Russian Fusion Reactors and Influence of Breeding Operation Mode on Parameters of Reactor Tritium Systems
Victor K. Kapyshev et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 642-645
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A1007
Release Behavior of Bred Tritium from Irradiated Li4SiO4
Tomohiro Kinjyo et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 646-649
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A1008
Methods for Tritium Production Rate Measurement in Design-Oriented Blanket Experiments
Yury Verzilov, Kentaro Ochiai, Takeo Nishitani
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 650-653
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A1009
Tritium Recovery from Solid Breeder Blanket by Water Vapor Addition to Helium Sweep Gas
Yoshinori Kawamura et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 654-657
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A1010
Recovery Method of Bred Tritium from Solid Breeders
Yu-ya Furukubo, Ken-ichi Fukuda, Masabumi Nishikawa, Sergey Beloglazov
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 658-661
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A1011
Semi-Technical Cryogenic Molecular Sieve Bed for the Tritium Extraction System of the Test Blanket Module for ITER
S. Beloglazov, N. Bekris, M. Glugla, R. Wagner
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 662-665
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A1012
Diffusion Coefficient of Tritium Through Molten Salt Flibe and Rate of Tritium Leak from Fusion Reactor System
Satoshi Fukada, Robert A. Anderl, Akio Sagara, Masabumi Nishikawa
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 666-669
Technical Paper | Tritium Science and Technology - Materials Interaction and Permeation | doi.org/10.13182/FST05-A1013
Self-Radiolysis of Tritiated Water: Experimental Study and Simulation
Sylver Heinze, Thibaut Stolz, Didier Ducret, Jean-Claude Colson
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 673-679
Technical Paper | Tritium Science and Technology - Properties, Reactions, and Applications | doi.org/10.13182/FST05-A1014
Systematics Studies of the Production Cross Sections of (n,tritium) Reaction Via 14.5 MeV Neutrons
M. Belgaid, F. Kadem, M. Asghar
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 680-683
Technical Paper | Tritium Science and Technology - Properties, Reactions, and Applications | doi.org/10.13182/FST05-A1015
Radiochemical Reactions Between Tritium Molecule and Carbon Dioxide
W. M. Shu, S. O'hira, T. Suzuki, M. F. Nishi
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 684-687
Technical Paper | Tritium Science and Technology - Properties, Reactions, and Applications | doi.org/10.13182/FST05-A1016
Behavior of Hydrophobic Isotopic Exchange Catalysts in the Presence of Tritiated Water
C. Postolache, Lidia Matei, Gh. Ionita
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 688-691
Technical Paper | Tritium Science and Technology - Properties, Reactions, and Applications | doi.org/10.13182/FST05-A1017
Development of Research Technique Related to Tritium -Radiation Effect on Inflammation Temperature of Hydrogen-Oxygen Mixtures
N. T. Kazakovsky, I. A. Abramov, A. I. Vedeneev, M. V. Glagolev, A. A. Selezenev
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 692-695
Technical Paper | Tritium Science and Technology - Properties, Reactions, and Applications | doi.org/10.13182/FST05-A1018
Measurement and Control Systems of Tritium Facilities for Scientific Research
Yu. I. Vinogradov, A. V. Kuryakin, A. A. Yukhimchuk
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 696-699
Technical Paper | Tritium Science and Technology - Properties, Reactions, and Applications | doi.org/10.13182/FST05-A1019
Nuclear Batteries Using Tritium and Thin Film Hydrogenated Amorphous Silicon
Tome Kosteski, Nazir P. Kherani, Walter T. Shmayda, Stefan Costea, Stefan Zukotynski
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 700-703
Technical Paper | Tritium Science and Technology - Properties, Reactions, and Applications | doi.org/10.13182/FST05-A1020
Gas Feeding System Supplying the U-400M Cyclotron Ion Source with Hydrogen Isotopes
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 704-707
Technical Paper | Tritium Science and Technology - Properties, Reactions, and Applications | doi.org/10.13182/FST05-A1021
Observation of Hydrogen Distribution Around Non-Metallic Inclusions in Steels with Tritium Microautoradiography
Teppei Otsuka et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 708-711
Technical Paper | Tritium Science and Technology - Properties, Reactions, and Applications | doi.org/10.13182/FST05-A1022
Use of Tritium in the Study of Defects in Amorphous Silicon
Stefan Costea et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 712-715
Technical Paper | Tritium Science and Technology - Properties, Reactions, and Applications | doi.org/10.13182/FST05-A1023
The Use of Tritiated Wastewater from NPP Cernavoda to Estimate Maximum Soluble Pollutants on Danube-Black Sea Channel
Carmen Varlam et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 716-719
Technical Paper | Tritium Science and Technology - Properties, Reactions, and Applications | doi.org/10.13182/FST05-A1024
Measuring Neutrino Properties with Tritium
Christian Weinheimer
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 723-730
Technical Paper | Tritium Science and Technology - Tritium in Neutrino Physics | doi.org/10.13182/FST05-A1025
Status of Works on A-40-MCI-Activity Tritium Source for the Measurement of the Antineutrino Magnetic Moment
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 731-736
Technical Paper | Tritium Science and Technology - Tritium in Neutrino Physics | doi.org/10.13182/FST05-A1026
Windowless Gaseous Tritium Source of Beta Electrons for KATRIN (Overview and Present Status)
O. Kazachenko
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 737-742
Technical Paper | Tritium Science and Technology - Tritium in Neutrino Physics | doi.org/10.13182/FST05-A1027
Effects of Plasma Phenomena on Neutrino Mass Measurements Process Using a Gaseous Tritium -Source
Anatoly F. Nastoyashchii, Nikita A. Titov, Igor N. Morozov, Ference Glück, Ernst W. Otten
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 743-746
Technical Paper | Tritium Science and Technology - Tritium in Neutrino Physics | doi.org/10.13182/FST05-A1028
Tritium Determination at Trace Level: Which Strategy to Determine Accurately HTO and OBT in Environmental Samples?
N. Baglan, G. Alanic, F. Pointurier
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 749-754
Technical Paper | Tritium Science and Technology - Biology, Health, and Radiation | doi.org/10.13182/FST05-A1029
Subcellular Distribution of Organically Bound Tritium in the Rat Liver After Ingestion of Tritiated Water and Some Tritiated Organic Compounds
H. Takeda, K. Miyamoto, S. Fuma, N. Ishii, K. Yanagisawa
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 755-758
Technical Paper | Tritium Science and Technology - Biology, Health, and Radiation | doi.org/10.13182/FST05-A1030
Tritium Elimination System Using Tritium Gas Oxidizing Bacteria
Michiko Ichimasa et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 759-762
Technical Paper | Tritium Science and Technology - Biology, Health, and Radiation | doi.org/10.13182/FST05-A1031
Interlaboratory Comparison of Organically Bound Tritium Measurements in Environmental Samples
W. J. G. Workman, S. B. Kim, T. G. Kotzer
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 763-766
Technical Paper | Tritium Science and Technology - Biology, Health, and Radiation | doi.org/10.13182/FST05-A1032
Organically Bound Tritium in Plants: Insights Gained by Long-Term Experience in Experimental and Modeling Research
S. Strack, S. Diabaté, W. Raskob
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 767-770
Technical Paper | Tritium Science and Technology - Biology, Health, and Radiation | doi.org/10.13182/FST05-A1033
Formation of Organically Bound Deuterium at Each Growing Stage of Rice
Mariko Atarashi-Andoh, Yasuharu Kumakura, Hikaru Amano, Masami Fukui
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 771-774
Technical Paper | Tritium Science and Technology - Biology, Health, and Radiation | doi.org/10.13182/FST05-A1034
Uptake of Heavy Water and Loss by Tangerine in the Heavy Water Vapor Release Experiment in a Greenhouse as a Substitute for Tritiated Water
Y. Ichmasa et al.
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 775-778
Technical Paper | Tritium Science and Technology - Biology, Health, and Radiation | doi.org/10.13182/FST05-A1035
The Dynamics of Tritium - Including OBT - in the Aquatic Food Chain
D. Galeriu, R. Heling, A. Melintescu
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 779-782
Technical Paper | Tritium Science and Technology - Biology, Health, and Radiation | doi.org/10.13182/FST05-A1036
Tritium Enrichment in the Hydration Sphere of Humic Substances
Birgit Wierczinski, Günther Müllen, Andreas Türler
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 783-786
Technical Paper | Tritium Science and Technology - Biology, Health, and Radiation | doi.org/10.13182/FST05-A1037
Accumulative Tritium Transfer from Water into Biosystems
Franz Baumgärtner
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 787-790
Technical Paper | Tritium Science and Technology - Biology, Health, and Radiation | doi.org/10.13182/FST05-A1038
Modeling the Radiological Impact of Tritium in Sewage Sludge Being Used as Fertilizer
A. Venter, G. Smith
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 791-794
Technical Paper | Tritium Science and Technology - Biology, Health, and Radiation | doi.org/10.13182/FST05-A1039
Energy Metabolism and Human Dosimetry of Tritium
D. Galeriu, H. Takeda, A. Melintescu, A. Trivedi
Fusion Science and Technology | Volume 48 | Number 1 | July-August 2005 | Pages 795-798
Technical Paper | Tritium Science and Technology - Biology, Health, and Radiation | doi.org/10.13182/FST05-A1040
Overview of the DIII-D Fusion Science Program
J. L. Luxon, T. C. Simonen, R. D. Stambaugh, DIII-D Team
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 807-827
Technical Paper | DIII-D Tokamak | doi.org/10.13182/FST05-A1041
A Brief Introduction to the DIII-D Tokamak
J. L. Luxon
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 828-833
Technical Paper | DIII-D Tokamak | doi.org/10.13182/FST05-A1042
DIII-D Diagnostic Systems
R. L. Boivin, J. L. Luxon, M. E. Austin, N. H. Brooks, K. H. Burrell, E. J. Doyle, M. E. Fenstermacher, D. S. Gray, M. Groth, C.-L. Hsieh, R. J. Jayakumar, G. R. McKee, C. J. Lasnier, A. W. Leonard, R. A. Moyer, T. L. Rhodes, J. C. Rost, D. L. Rudakov, M. J. Schaffer, E. J. Strait, D. M. Thomas, M. Van Zeeland, J. G. Watkins, G. W. Watson, W. P. West, C. P. C. Wong
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 834-851
Technical Paper | DIII-D Tokamak | doi.org/10.13182/FST05-A1043
Current Profile Measurement on the DIII-D Tokamak
R. J. Jayakumar, S. L. Allen, K. H. Burrell, L. L. Lao, M. A. Makowski, C. C. Petty, D. M. Thomas
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 852-863
Technical Paper | DIII-D Tokamak | doi.org/10.13182/FST05-A1044
Stability Limits of High-Beta Plasmas in DIII-D
E. J. Strait
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 864-874
Technical Paper | DIII-D Tokamak - Achieving Reactor-Level Plasma Pressure | doi.org/10.13182/FST05-A1045
Theory and Simulation Basis for Magnetohydrodynamic Stability in DIII-D
A. D. Turnbull, D. P. Brennan, M. S. Chu, L. L. Lao, P. B. Snyder
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 875-905
Technical Paper | DIII-D Tokamak - Achieving Reactor-Level Plasma Pressure | doi.org/10.13182/FST05-A1046
Increasing the Tokamak Pressure Limit: Tearing Mode Experiments in DIII-D
R. J. La Haye
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 906-917
Technical Paper | DIII-D Tokamak - Achieving Reactor-Level Plasma Pressure | doi.org/10.13182/FST05-A1047
Resistive Wall Mode Stabilization Studies at DIII-D
A. M. Garofalo
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 918-930
Technical Paper | DIII-D Tokamak - Achieving Reactor-Level Plasma Pressure | doi.org/10.13182/FST05-A1048
An Understanding of H-Mode Pedestal Instabilities in the DIII-D Tokamak
J. R. Ferron, P. B. Snyder
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 931-944
Technical Paper | DIII-D Tokamak - Achieving Reactor-Level Plasma Pressure | doi.org/10.13182/FST05-A1049
Energetic Ion Experiments in DIII-D
W. W. Heidbrink
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 945-953
Technical Paper | DIII-D Tokamak - Achieving Reactor-Level Plasma Pressure | doi.org/10.13182/FST05-A1050
Disruption Physics and Mitigation on DIII-D
D. G. Whyte, D. A. Humphreys, A. G. Kellman
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 954-967
Technical Paper | DIII-D Tokamak - Achieving Reactor-Level Plasma Pressure | doi.org/10.13182/FST05-A1051
MHD Equilibrium Reconstruction in the DIII-D Tokamak
L. L. Lao, H. E. St. John, Q. Peng, J. R. Ferron, E. J. Strait, T. S. Taylor, W. H. Meyer, C. Zhang, K. I. You
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 968-977
Technical Paper | DIII-D Tokamak - Achieving Reactor-Level Plasma Pressure | doi.org/10.13182/FST48-968
Dimensionless Parameter Scaling of Transport in DIII-D
C. C. Petty
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 978-987
Technical Paper | DIII-D Tokamak - Achieving Reactor Quality Plasma Confinement | doi.org/10.13182/FST05-A1053
Transport Studies in DIII-D with Modulated Heat and Particle Sources
J. C. DeBoo, D. R. Baker, M. R. Wade
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 988-996
Technical Paper | DIII-D Tokamak - Achieving Reactor Quality Plasma Confinement | doi.org/10.13182/FST05-A1054
L-H Transition and Power Threshold Studies in the DIII-D Tokamak
T. N. Carlstrom
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 997-1010
Technical Paper | DIII-D Tokamak - Achieving Reactor Quality Plasma Confinement | doi.org/10.13182/FST05-A1055
Pedestal Studies in DIII-D
R. J. Groebner, T. H. Osborne, M. E. Fenstermacher, A. W. Leonard, M. A. Mahdavi, R. A. Moyer, L. W. Owen, G. D. Porter, P. B. Snyder, P. C. Stangeby, T. L. Rhodes, N. S. Wolf
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 1011-1020
Technical Paper | DIII-D Tokamak - Achieving Reactor Quality Plasma Confinement | doi.org/10.13182/FST05-A1056
Role of E × B Shear and Magnetic Shear in the Formation of Transport Barriers in DIII-D
K. H. Burrell
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 1021-1041
Technical Paper | DIII-D Tokamak - Achieving Reactor Quality Plasma Confinement | doi.org/10.13182/FST05-A1057
Comparison of Experimental Fluctuation and Turbulence Measurements with Theory and Simulation at DIII-D
T. L. Rhodes, G. R. McKee, P. A. Politzer, D. W. Ross
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 1042-1050
Technical Paper | DIII-D Tokamak - Achieving Reactor Quality Plasma Confinement | doi.org/10.13182/FST05-A1058
Rho-Star Scaling and Physically Realistic Gyrokinetic Simulations of Transport in DIII-D
R. E. Waltz
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 1051-1059
Technical Paper | DIII-D Tokamak - Achieving Reactor Quality Plasma Confinement | doi.org/10.13182/FST05-A1059
GLF23 Modeling of Turbulent Transport in DIII-D
J. E. Kinsey
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 1060-1071
Technical Paper | DIII-D Tokamak - Achieving Reactor Quality Plasma Confinement | doi.org/10.13182/FST05-A1060
Divertor Physics and Concept Development on DIII-D and Doublet-III Tokamaks
M. A. Mahdavi, S. L. Allen, M. E. Fenstermacher, R. Maingi, M. J. Schaffer, R. D. Stambaugh, M. R. Wade
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 1072-1082
Technical Paper | DIII-D Tokamak - Plasma Heat and Particle Exhaust | doi.org/10.13182/FST05-A1061
Divertor Heat Flux Control Research on DIII-D
A. W. Leonard for the DIII-D Divertor Team
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 1083-1095
Technical Paper | DIII-D Tokamak - Plasma Heat and Particle Exhaust | doi.org/10.13182/FST05-A1062
Plasma-Surface Interaction Studies on DIII-D and Their Implications for Next-Step Fusion Experiments
D. G. Whyte
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 1096-1116
Technical Paper | DIII-D Tokamak - Plasma Heat and Particle Exhaust | doi.org/10.13182/FST05-A1063
Review of DIII-D H-Mode Density Limit Studies
R. Maingi, M. A. Mahdavi
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 1117-1126
Technical Paper | DIII-D Tokamak - Plasma Heat and Particle Exhaust | doi.org/10.13182/FST05-A1064
Developing Models for the DIII-D Boundary Plasma
G. D. Porter, T. D. Rognlien, M. E. Rensink, N. S. Wolf, P. C. Stangeby
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 1127-1140
Technical Paper | DIII-D Tokamak - Plasma Heat and Particle Exhaust | doi.org/10.13182/FST05-A1065
Electron Cyclotron Heating on DIII-D
R. Prater, C. C. Petty
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 1141-1148
Technical Paper | DIII-D Tokamak - Radio-Frequency Heating and Current Drive | doi.org/10.13182/FST05-A1066
Plasma Heating in the Ion Cyclotron Range of Frequencies in DIII-D
R. I. Pinsker
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 1149-1158
Technical Paper | DIII-D Tokamak - Radio-Frequency Heating and Current Drive | doi.org/10.13182/FST05-A1067
Radio-Frequency Current Drive in DIII-D
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 1159-1169
Technical Paper | DIII-D Tokamak - Radio-Frequency Heating and Current Drive | doi.org/10.13182/FST05-A1068
The Bootstrap Current and Neutral Beam Current Drive in DIII-D
P. A. Politzer
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 1170-1177
Technical Paper | DIII-D Tokamak - Radio-Frequency Heating and Current Drive | doi.org/10.13182/FST05-A1069
High-Performance Regimes in DIII-D
C. M. Greenfield
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 1178-1198
Technical Paper | DIII-D Tokamak - Advanced Tokamak Scenarios | doi.org/10.13182/FST05-A1070
Hybrid Scenario Development in DIII-D
M. R. Wade, T. C. Luce, J. Jayakumar, P. A. Politzer, C. C. Petty, M. Murakami, J. R. Ferron, A. W. Hyatt, A. C. C. Sips
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 1199-1211
Technical Paper | DIII-D Tokamak - Advanced Tokamak Scenarios | doi.org/10.13182/FST05-A1071
Development of Steady-State Advanced Tokamak Research in the DIII-D Tokamak
T. C. Luce
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 1212-1225
Technical Paper | DIII-D Tokamak - Advanced Tokamak Scenarios | doi.org/10.13182/FST05-A1072
The Electron Cyclotron Resonant Heating System on the DIII-D Tokamak
John Lohr, Y. A. Gorelov, K. Kajiwara, Dan Ponce, R. W. Callis, J. L. Doane, R. L. Ellis, H. J. Grunloh, C. P. Moeller, J. Peavey, R. Prater, J. F. Tooker
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 1226-1237
Technical Paper | DIII-D Tokamak - Technologies for Next-Step Devices | doi.org/10.13182/FST05-A1073
Development of Next-Step-Relevant ICRF Technology in the DIII-D Program
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 1238-1248
Technical Paper | DIII-D Tokamak - Technologies for Next-Step Devices | doi.org/10.13182/FST05-A1074
Integrated Plasma Control in DIII-D
D. A. Humphreys, R. D. Deranian, J. R. Ferron, A. W. Hyatt, R. D. Johnson, R. R. Khayrutdinov, R. J. La Haye, J. A. Leuer, B. G. Penaflor, J. T. Scoville, M. L. Walker, A. S. Welander
Fusion Science and Technology | Volume 48 | Number 2 | October 2005 | Pages 1249-1263
Technical Paper | DIII-D Tokamak - Technologies for Next-Step Devices | doi.org/10.13182/FST05-A1075
Studies of the Electrical Properties of the LHD Combline Antenna
N. Takeuchi, T. Seki, K. Saito, T. Watari, R. Kumazawa, T. Mutoh, Y. Torii, G. Nomura, A. Kato, F. Shimpo, Y. Takase, H. Kasahara, T. Taniguchi, H. Wada, N. Kasuya, K. Yamagishi, C. P. Moeller, M. Saigusa, Z. Yanping
Fusion Science and Technology | Volume 48 | Number 3 | November 2005 | Pages 1267-1284
Technical Paper | doi.org/10.13182/FST05-A1076
Diffusion and Permeation of Deuterium in EUROFER97: Effect of Irradiation and of Implanted Helium
Z. Yao, C. Liu, P. Jung
Fusion Science and Technology | Volume 48 | Number 3 | November 2005 | Pages 1285-1291
Technical Paper | doi.org/10.13182/FST05-A1077
Deuterium-Tritium Beta-Layering Within a National Ignition Facility Scale Polymer Target in the LANL Cryogenic Pressure Loader
Peter S. Ebey, James M. Dole, Drew A. Geller, James K. Hoffer, Arthur Nobile, John D. Sheliak
Fusion Science and Technology | Volume 48 | Number 3 | November 2005 | Pages 1292-1298
Technical Paper | doi.org/10.13182/FST05-A1078
Producing Cryogenic Deuterium Targets for Experiments on OMEGA
D. R. Harding, T. C. Sangster, D. D. Meyerhofer, P. W. McKenty, L. D. Lund, L. Elasky, M. D. Wittman, W. Seka, S. J. Loucks, R. Janezic, T. H. Hinterman, D. H. Edgell, D. Jacobs-Perkins, R. Q. Gram
Fusion Science and Technology | Volume 48 | Number 3 | November 2005 | Pages 1299-1306
Technical Paper | doi.org/10.13182/FST05-A1079
A Model to Characterize the D-T Layer of ICF Targets by Backlit Optical Shadowgraphy
F. Lamy, Y. Voisin, A. Diou, M. Martin, L. Jeannot, G. Pascal, C. Hermerel
Fusion Science and Technology | Volume 48 | Number 3 | November 2005 | Pages 1307-1319
Technical Paper | doi.org/10.13182/FST05-A1080
Measurement of Neutron Emission Spectra in Li(d,xn) Reaction with Thick and Thin Targets for 40-MeV Deuterons
M. Hagiwara, T. Itoga, N. Kawata, N. Hirabayashi, T. Oishi, T. Yamauchi, M. Baba, M. Sugimoto, T. Muroga
Fusion Science and Technology | Volume 48 | Number 3 | November 2005 | Pages 1320-1328
Technical Paper | doi.org/10.13182/FST05-A1081