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1968年
1. A model for Burnup Optimization Study of Power Reactors, Trans.Am.Nucl.Soc. 11,2
1971年
1. Maximizing the Average Fuel Burn Up over Entire Core, Nucl. Sci. Eng. 44, 2
2. Application of Linear Programming to Refueling Optimization for Light-Water Moderated Power
Reactors, Nucl. Sci. Eng. 46,1
1973年
1. Nuclear Materials Safeguards System, KAGAKU KOGAKU 37, 2
2. A Model for Predicting Released Amounts of Radioactive Wastes, Proc. Special Research
Program Symposium of the Ministry of Education of Japan on Environmental Polution Control,
Kyoto, Japan
1974年
1. An Incentive-Tax Model for Nuclear Material Safeguards, International Institute for Applied
Systems Analysis, RR-74-19
2. Optimization of Environmental Monitoring System for Nuclear Facilities, Proc. of 5th
International Conference of Radiation Research, Seattle, Washington
3. Sensitivity Analysis on Hydrogen Utilization Factor of the Hafele-Manne Model, International
Institute for Applied Systems Analysis, RM-74-30
1975年
1. An Extension of the Hafele-Manne Model for Assessing Strategies on a Transition from Fossil
Fuel to Nuclear and Solar Alternatives, International Institute for Applied Systems Analysis,
RR-75-47
2. A Study on the Demand Aspects of the Hafele-Manne Model—An Application of the
Mathematical Technique of the Hoffman Model, International Institute for Applied Systems
Analysis, RM-75-4
3. Note on Molten-Salt Reactor Strategies, International Institute for Applied Systems Analysis,
RM-75-32
1976年
1. Nuclear Fuel Reprocessing Facilities, GENDAI KAGAKU, 59, 4
2. Systems Analysis on Long-Term Energy Strategies, J. Atom. Energ. Soc. Jap., 18, 8
2
1977年
1. A Model for Assessing Social Impacts of Nuclear Technology, Proc. of IFAC Symposium on
Environmental Systems Planning, Design and Control, Kyoto, Japan
2. An Energy Model for Transition from Fossil Fuel to Advanced Technologies, Proc. of 2nd
Pacific Chemical Engineering Congress, Denver, Colorado
3. A Morphological Model on Long-Term Energy System, Proc. of International Conference on
Energy Use Management, Tucson, Arizona
1978年
1. A Methodology for Hydrogen Fuel Technology Assessment - Assessment of Potential Future
Markets for the Production of Hydrogen from Waster, IEA/CEC Meeting, Tokyo
1979年
1. Robot Technology for Fuel Reprocessing and Waste Processing Facilities, Robot, 23, 29
2. Static Characteristics Analysis of Lithium Isotope Separation by Means of Plasma Centrifuge, J.
Atom. Energy Soc. Japan, 21,596
1980年
1. Modeling of Large-Scale Energy Systems (ed. by Hafele), Pergamon, London
2. Assessment of Potential Future Markets for the Production of Hydrogen from Water,
OECD/IEA, Paris
3. The U.S. Energy Strategy and the Political Aspects, NIRA OUTPUT NRC-77-9C, NIRA Tokyo
4. Towards a More Acceptable Future of Energy Systems, NIRA OUTPUT NRS-79-9C, NIRA
Tokyo
5. A Mathematical Programming Model for Assessing Advanced Oil-Technologies, Proc.
IIASA/IFAC Symposium on Modeling of Large-Scale Energy Systems
6. Analysis of An Optimization Problem of Advanced Energy Technology Introduction, J.Nucl.Sci,
Technol., 17, 156
7. Observation on Optimal Transition from Conventional Energy with Resource Constraints to
Advanced Energy with Virtually Unlimited Resource, J. Atom. Energy Soc. Japan, 22, 641
8. A Modeling Study of an Efficient Path from Oil to an Advanced Energy, Materials and Society,
4, 109
9. Hydrogen Fuel Technology Assessment in Long-Term Japanese Energy System Dynamics,
Materials and Society, 4, 301
10. An Efficient Path of Hydrogen Production and Consumption, Hydrogen Energy Progress, 3,
1697
3
11. Analysis of Fluid Flow in Plasma Centrifuges, J. Atom. Energy Soc. Japan, 22, 658
12. A Theory an Optimal Transition from Resource-Constrained Energy to Virtually Unlimited
Energy, J. Atom. Energy Soc. Japan
1981年
1. Energy in a Finite World, Ballinger, San-Francisco
2. Nuclear Fuel Cycle Engineering, Nikkan Kogyo, Tokyo
3. A Basic Study on Tritium Waste, Ann. Rep. of Eng. Inst., Fac. of Eng., Univ. of Tokyo, 40, 123
1982年
1. U.S Decision Making on Energy Policy for 80’s, NIRA OUTPUT NR-79-7, NIRA, Tokyo
2. Japanese Translation of “The Efficient Use of Energy Resources”, W.D.Nordhaus, Yale Univ.
Press,1979, Toyo Keizai, Tokyo
3. Observations on the U.S. Nuclear Policy, NIRA OUTPUT NR-79-7,242-251, 260-262
4. Hydrogen Economy Assessment for Long-term Energy Systems in Japan, Hydrogen Energy, 7,
6, 445
5. The Mathematical Analysis on an Efficient Use of Energy, J. Fac. Eng. Univ. Tokyo, 36, 787
6. Process Analysis on Tritium Waste Storages in the Form of Cement Block, Ann. Rep. Eng.
Res.Inst., Fac. of Eng., Univ. Tokyo, 41
1983年
1. Japanese Translation of “Energy in Finite World”, W.Halfele(ed.), Ballinger, 1981, Denryoku
Shinpo, Tokyo
2. Long-Term Aspects of Plutonium Use, Energy Forum, No.337, 50
3. A Theoretical Analysis on Linear Systems as Dual Problems, Reports of Special Research
Project of MONBUSHO Grand-in-Aid on Total Assessment on Energy Sources and Uses, 69
4. Safety Assessment on Tritium Waste, Report of Special Research Project of MONBUSHO
Grand-in-Aid on Nuclear Fusion, Group II, 3
5. Observation on Optimal Transition from Conventional Energy with Resource Constraints to
Advanced energy with Virtually Unlimited Resources, (II) Analysis of Extended Model, J.
Atomic Energy Soc. Japan, 25, 58
6. Long-Term Risk Assessment on High-Level Waste Management, Proc. of PACHEC ‘83
7. Basic Study on Low Temperature Storage Process of Tritium Waste, Ann. Rep. Eng. Res. Inst.,
Fac. Eng., Univ. Tokyo, 42
8. Analysis on Leach Rate of Vitrified Waste, Ann. Rep. Eng. Res. Inst., Fac. Eng., Univ. Tokyo,
42
4
9. Laser Photochemical Separation of Tritium. J.Chem. Soc., Japan, 36, 636
10. Today’s Roles of Chemical Engineering Industries in the field of Nuclear Energy, Energy Forum,
6, 131
11. Outline of Safety Assessment on Shallow Land Burial of Low-Level Radioactive Wastes,
Energy Review, 12, 18
1984年
1. Criticality Safety of Nuclear Fuel, NSRA, Tokyo
2. Energy, Kyoiku-sha, Tokyo
3. Nuclear Energy, Encyclopedia, Heibon-sha, Tokyo
4. Numerical Analysis of Nuclide Migration through Fissured Geological Media, Nucl. Tech., 64,
2
5. An Application of Duality Theory to Nuclear Fuel Cycle Evaluation, Reports of Special
Research Project, Research on Socio-Economic Aspects of Energy System
6. Nuclide Sorption on Granite Samples, Annu. Rep. Eng. Res. Inst., Fac. Eng., Univ. Tokyo, 43,
107-111
7. Separation of TRU Elements through Photochemical Process, UTRCN News, 32, 7-12
8. Engineering Basis for Transuranics, J. Atom. Energy Soc. Jpn., 26, 949-958
9. Away-from-Reactor Storage of Low-Level Radioactive Wastes, Energy Forum, 1984, 8, 94-96
10. Safety of Shallow Land Burial of Low-Level Radioactive Wastes, Proc. 17th Annual Report
Conference of Nuclear Safety Research Association, 75-79
11. Photochemical Separation of TRU Elements, Radioisotope, 33, 94
1985年
1. Fuel Cycle for Nuclear Power Production, Denryoku Shinpo
2. Source-Team of Geological Disposal of Radioactive Wastes, Atom. Energy Soc. Jpn, Tokyo
3. Photochemical Separation of Actinides, UTRCN-S-9, 43-44
4. Leaching of Vitrified Wastes, UTRCN-S-9, 45-46
5. Statistical Analysis on Safety of Underground Disposal of Radioactive Wastes, UTRCN-S-9,
47-48
6. Safety Assessment of High-Level Radioactive Vitrified Waste, PNC-ST16085-05
7. Photochemical Separation Process of Actinide Elements, NEUT84-01
8. Review of US National Academy of Science Report “A Study of the Isolation System for
Geologic Disposal of Radioactive Wastes”, UTRCN-S-8, 1-33
9. Strategic View of Nuclear Power Development in our Country, Energy Forum, 1985, 1, 55-57
10. Some Impressions on European Nuclear Strategies, EP Report 831, 1-3
11. An Uncertainty Analysis on Leach Rate Measurements of Nuclear Waste Glass, Proc. Int.
5
Seminar on Radioactive Waste Products Jul-Conf-54, 370-388
12. The Concept of Underground Disposal of Radioactive Waste, KAGAKU KOGAKU, 49,
523-527
13. Toward an Indigenous System for Peaceful Use of Nuclear Energy, Energy Forum, 365, 37-41
14. The Traditional Framework of University / Industry Cooperation at M.I.T., JETRO Technology
Bulletin, 233,46-47
15. Responding to Uneasy Concerns about the Radioactive Waste Storage Center, HOKKAI Post,
13(8), 8-10
16. Fuel Cycle for Nuclear Power Generation, KAGAKU KOGAKU, 49, 371-375
1986年
1. Japanese Translation of “Nuclear Power Technology”, W. Marshall(ed.), Oxford Univ. Press
1983, Chikuma Shobo, Tokyo
2. Natural Barriers for Geological Disposal of Radioactive Wastes, Atom. Energy. Soc. Jpn, Tokyo
3. On the R&D Policy of Japan High-Technology for the 21st Century, NIRA, Tokyo
4. Energy Planning for a Developing Country – A Case Study: Thailand, J. Fac. Eng., Univ.
Tokyo(B), 38(3), 77-113
5. Uranium Enrichment, MOL, 61(1), 112-117
6. State of the Arts of Uranium Enrichment, J. Jpn. Soc. Mech. Eng., 89, 198-201
7. Japan’s Nuclear Energy Policy, Science and Public Policy, 13(1), 25-32
8. An Overview of Underground Research Laboratory-1, Energy Review, 6(1), 48-49
9. An Overview of Underground Research Laboratory-2, Energy Review, 6(2), 48-49
10. Why Do We Review Our Nuclear Planning Now?, Energy Rev., 6(3), 50-51
11. Optimization of Uranium Resource Utilization, Energy Rev., 6(5), 44-47
12. Safe or Unsafe? Geological Disposal of High-Level Radioactive Wastes, Energy Rev., 6(5),
50-53
13. Creative Paths of Nuclear Technology Development, Energy Forum, 380, 48-49
14. Uranium Enrichment through Laser-Induced Reactions, Newton, 6(5), 8-9
15. Methodology for Safety Assessment on Shallow Land Burial of Low-Level Radioactive Wastes,
Nucl. Eng., 32(4),9-14
16. Application of Photochemistry to the Valance State Adjustment of Neptunium in Nuclear Fuel
Reprocessing, Youichi Enokida, Atsuyuki Suzuki and Ryouhei Kiyose, Annu. Rep. Eng. Res.
Inst., Fac. Eng., Univ. Tokyo, 45, 113-116
17. Application of Laser Photochemistry to Neptunium Separation Processes, Youichi Enokida,
Atsuyuki Suzuki and Ryohei Kiyose, Proc. World Congr. III Chem. Eng., Tokyo, 1986, 700-703
18. A Process Analysis on atomic Vapor Laser Isotope Separation of Lithium, Kazuyuki Katoh,
6
Atsuyuki Suzuki and Ryouhei Kiyose, Proc. World Congr. III Chem. Eng., Tokyo, 1986,
715-718
19. A Leach Model for Safety Assessment, Hiroyuki Umeki, Atsuyuki Suzuki and Ryouhei Kiyose,
Proc. 3rd Int. Symp. on Ceramics in Nuclear Waste Management
20. Energy Systems for 21st Century—A perspective as an Energy Game, Long-Term Vision of
Energy Industries, Res.-N-2, 190-202, NRI
1987年
1. Analysis on Laser Photo-Separation Process, Atsuyuki Suzuki, Youichi Enokida and Kazuyuki
Katoh, Nucl. Eng., 33(1), 27-32
2. Axial holdup in Pulsed Perforated-Plate Column of Pulser Feeder Type, Atsuyuki Suzuki,
Ryouhei Kiyose et al., NGEGAL, 29, 141-150
3. Droplet Diameters and Axial Mixing in Pulse Columns in the Comparison of the Aqueous to
Organic Continuous Mode of Operation, Atsuyuki Suzuki, Ryouhei Kiyose et al., Nucl. Technol.,
77, 187-193
4. Today’s Meaning of Japanese Nuclear Power and the Problems for Reprocessing Project, Energy
Forum, 388, 80-81
5. Laser Chemistry and the Required Beam Power, KAGAKU KOGAKU, 51, 892-896
6. Extraction-Chromatographic Measurement of Oxidation States of Neptunium-273 at Low
Concentrations, Youichi Enokida and Atsuyuki Suzuki, J. Nucl. Sci. Technol., 24, 859-861
7. Application of Laser Separation in Nuclear Fuel Reprocessing, Youichi Enokida and Atsuyuki
Suzuki, NEUT Res. Rep. 87-04,1-88
8. Laser Neptunium Separation in Nuclear Fuel Reprocessing, Youichi Enokida and Atsuyuki
Suzuki, Annu. Rep. Eng. Res. Inst., Fac. Eng., Univ. Tokyo., 46, 95-100
9. Liquid-Liquid Dispersion Characteristics in Annular Pulse Column, Youichi Enokida and
Atsuyuki Suzuki, J. Fac. Eng. Univ. Tokyo, A, 25, 42-43
10. A Study on Laser Isotope Separation Processes, Hiroshi Sugai, Kazuyuki Katoh, Tsuyoshi
Okamoto, Youichi Enokida and Atsuyuki Suzuki, NEUT Res., 87-03
11. Analysis of Velocity and spectrum Broadening of a Laser Pulse Propagating in Atomic Vapour,
Atsushi Takada, Kazuyuki Katoh and Atsuyuki Suzuki, NEUT Res. Rep., 87-5
12. Inference Model for Prediciting a Pinching-Effect in the Co-Decontamination Extraction
Process in a Purex Fuel Reprocessing Plant, Proc. Int. Semin. On Criticality Safety (ISCS ’87),
Tokyo, 1987, 10, 246-243
13. Laser Photochemical Neptunium Separation, Proc. Int. Conf. On nucl. Fuel Reprocessing and
Waste Management ‘RECOD 87’ Paris, 1987, 1, 475-482
14. Energy Systems for 21st Century—A Perspective as an Energy Game, Atsuyuki Suzuki,
7
Long-Term Vison of Energy Industries, Res.-N-2, 190-202, NRI
1988年
1. History of Japanese Technology-Energy, Chikuma Shobo, Tokyo
2. Dynamic Behavior and Control of Product Enrichment in a Centrifuge Cascade, Tsuyoshi
Okamoto, Atsuyuki Suzuki et al., JAERI-M 88-005
3. Experimental Study of Absorption Characteristics of CO2 Laser Pulse in SF2Hcl, J. Nucl. Sci.
Technol., 26, 295-297
4. Laser Isotope Separation by Deep Burning Method, Hiroshi Sugai, Youichi Enokida and
Atsuyuki Suzuki, Annu. Rep. Eng. Res. Inst., Fac. Eng., Univ. Tokyo, 47, 103-108
5. Toward an Age of Nuclear Fuel Cycle, Energy, 21(10), 31-35
6. Of the Energy Security, Proc. 10th Anniversary Symp. Inst. Appl. Energy, Inst. Quarterly, 11(2),
37-47
7. Needs for Nuclear Fuel Cycle and the Safety, Proc. Basic Understanding of Nucl. Energy,
Energy and Humanity, 104-118
8. Modeling of Radionuclide Leaching from a Double Barriered Waste Package, JAERI-M 88-089
9. Basic Study of Safeguards System for Laser Isotope Separation Facility, Tsuyoshi Okamoto,
Atsuyuki Suzuki et al., 9th Annu. Meet. of INMM Jpn.
1989年
1. Nuclear Power and Human Life, Energy Conservation Center, Tokyo
2. Droplet Diameter in Pulsed Perforated-Plate Column of Pulsar feeder Type, Hidematsu Ikeda
and Atsuyuki Suzuki, J. At. Energy Soc. Jap., 31, 296-305
3. Modeling of Release of Radionuclides from an Engineered Disposal Facility for Shallow-Land
Disposal low-Level Radioactive Waste, Waste Management, 9, 45-56
4. Modeling of Radionuclide Leaching from a Double Barriered Waste Package, JAERI-M 88-089
5. Quantum Engineering Technology of Separation process, Energy Rev., 8(6), 23-27
6. Economics of Reprocessing, PNC/ORNL Semin., March 20-21, 1989, ORNL
7. Some New Basic Studies on Reprocessing, Atsuyuki Suzuki, PNC/ORNL Semin., March 20-21,
1989, ORNL
8. Highly Excited Even Rydberg Series of Lu I Studies by two-Step Laser Photoionization
Spectroscopy, J. Phys. B: At. Mol.Opt. Phys. 22, L511-1516
9. Reduction Stripping of Low-Concentration Np(VI) Loaded on 30%tri-n-Butyl Phosphate
through Laser-Induced Reactions, Nucl. Technol., 88, 47-54
10. Axial Turbulent Diffusion in Fluid between Rotating Coaxial Cylinders, AIChE J., 35(7),
1211-1214
8
11. An Inference Model for Predicting a Pinching Effect in the Co-decontamination Extraction
Process in a Purex Fuel Reprocessing Plant, Nucl. Technol., 85, 187-205
12. Transient Diffusion from a cylindrical Waste Solid into Fractured Porous Rock, Radioactive
Waste Management Nuc. Fuel Cycle, 13, 263-279
13. International Conference Report; Safety of Radioactive Waste Disposal, Energy Review, 9(12),
28-31
14. Nuclear Fuel Seen from the Aspect of Scientific Technology, 22nd JAIF Annu. Conf., Tokyo,
1989, 70-86
15. A Simulation Study in Evaluating the Effectiveness of Safeguards System – Characteristic
Analysis of a Diverted Centrifuge Cascade, 10th Annu. Meet. Proc. Int. Nuc. Mat. Man., Jpn.
Chap., Tokyo, 1989, 54-61
16. Resonance Ionization Spectroscopy of Lanthanides, Laser Science Study, 11, 10
17. Development of Safety Assessment Methodology for Shallow-Land Disposal of Low-Level
Radioactive Waste, Proc. 1989 Joint Int. Waste Management Conf., Kyoto, 1989, 515-520
18. Experimental Study of Absorption Characteristics of CO2 Laser Pulse in CF2HCl, Kazuyuki
Katoh, Hiroshi Sugai and Atsuyuki Suzuki, J. Nucl. Sci. Eng. Res. Inst., Fac. Eng., Univ. Tokyo,
47, 103-108
1990年
1. Energy in 90’s, Nihon Keizai Shinbunsha
2. The Cost of Democracy, Environmental Issues and Waste Management in Energy and Minerals
Production, 430-433
3. Conference Report, ‘1989 Joint International Waste Management Conference, J. Nuc. Sci.
Technol., 27, 89-94
4. Nuclear Energy; A Paradigm – A Revolutionary Change of Scientific Technologies, Energy
Review, 10(1), 23-27
5. Resource Savings and Environmental Protection through Nuclear Fuel Recycles, Energy Review,
10(2), 6-11
6. Models for Performance Assessment of Engineered Disposal Facility for Shallow-Land Disposal
of Low-Level Radioactive Wastes, Int. Symp. Safety Assess. Rad. Waste Repositories, Paris,
1989
7. An Analysis on the Efficient Laser Photoionization of Atoms, Ann. Nucl. Energy, 17, 5,
279-282
8. Radioactive Transport within a Low-Level Radioactive Waste Repository with a Cylindrical
Nuclide-Path Model, Waste Management, 10, 29-40
9. The Nuclear Energy in an Age of Globalization, Nucl. Eng., 37(1), 2-5
9
10. A Historical View of Technological Revolution and the Impact of Energy Use, Energy and
Resources, 11(5), 1-4
11. Toward an Age of Full-Scale Recycle Use of Nuclear Fuels, Energy Forum. 430, 77-79
12. Coherent Population Trapping in Four-Photon Three-Step Ionization Scheme, Atsuyuki Suzuki
et al., J. Nucl. Sci. Technol., 27,554-561
13. Measurement of CO2 Laser Pulse Narrowing in CF2HCl, Atsuyuki Suzuki et al, Nucl. Sci.
Technol., 671-673
14. Sensitivity Analysis for a High-Level Radioactive Waste Respository with the Bounding
Fracture Transport Model, Joonhong Ahn and Atsuyuki Suzuki, Radioactive Waste Management
Nucl. Fuel Cycle, 14, 257-273
15. Radionuclide Transport within a Low-Level Radioactive Waste Repository With a Cylindrical
Nuclide-Path Model, Joonhong Ahn and Atsuyuki Suzuki, Waste Management, 10,29-47
16. RIS Studies of Weak Perturbation in highly Excited Rydberg Series of Heavy Atoms, Haruka
Maeda, Atsuyuki Suzuki et al., Resonance Ionization Spectroscopy 1990 Inst. Phys. Conf. Ser.
No.114, 219-222
17. Detection of Trace Element by Resonance Ionization Spectroscopy, Haruka Maeda, Atsuyuki
Suzuki et al., Laser Sci. Stud., 12, 7-9
18. Laser-Microwave Double Resonance Ionization Spectroscopy of Rydberg Atoms, Haruka
Maeda, Atsuyuki Suzukiet al., Spectroscopy Stud., 40, 22-23
19. Ionization Characteristics of Three-Level Atoms by Non-monochromatic Lasers, Shuichi
Hasegawa, Atsuyuki Suzuki et al., J. Nucl.Sci. Technol., 27, 450-460
20. The Nuclear Future, Atsuyuki Suzuki, Proc. Energy Future in 90’s, Society of Energy and
Resources, Tokyo, 1990, 10-14
1991年
1. Effect of Colloids in Np(V) Transport through Quartz-Packed Column, Atsuyuki Suzuki et al.
3rd Int. Conf., Chemistry and Migration Behavior of Actinides and Fission Products in the
Geosphere, Jerez de la Frontera 1991, P.82-83
2. Nuclear Fuel Cycle Technologies, 1990 Natl. Symp. Atomic Energy, Tokyo, 1991, 47-48
3. A Macro-Dynamic Model Analysis on Energy Systems, Energy Systems and the Energy, Tokyo,
1991, 47-48
4. Radioactive Waste Management in Japan, Waste Management ’91, Tucson, Arizona,
5. Toward an Environmentally Friendly Global Energy System, SHISEI, 40(7), 22-26
6. Japan’s Nuclear Power at the Turning Point, Atsuyuki Suzuki, Energy Forum, 442, 77-79
7. Solvent Extraction Pentavalent Neptunium with n-Octyl(Pheny1)-N,
N-Diisobutylcarbamoylmenthyphosphine Oxide, Djarot S. Wisnubroto, Atsuyuki Suzuki et al.,
10
J. Nucl. Sci. Technol., 28, 1100-1106
8. Analysis of Radionuclide Transport through Fracture Networks by Percolation Theory,
Joonhong Ahn, Yutaka Furuhama, Atsuyuki Suzuki et al., J. Nucl. Sci. Technol., 28(5), 433-446
9. Resonance Ionization Mass Spectrometry for Surface Impurity Analysis of high Purity Material,
H. Maeda, D. Ye, J. Kawai, Atsuyuki Suzuki and M.Takami, Anal. Sci., 7, 545-548
10. Laser-Microwave Double Resonance Ionization Spectroscopy of Rydberg Atoms, Haruka
Maeda, Atsuyuki Suzuki and Michiko Tamaki, Spectroscopy Stud., 40, 21-22
11. Effect of Hyperfine Structure on Resonance Ionization Spectroscopy, Shuichi Hasegawa,
Takafumi Kakudoh and Atsuyuki Suzuki, J. Fac. Eng., Univ. Tokyo. A, 29, 40-41
12. A More Acceptable High-Level Waste, Proc. Jt. Int. Symp., Environmental Consequences of
Hazardous Waste Disposal, Stockholm, 1991,113-120
13. Japan’s Program on High-Level Radioactive Waste Management, 1st France-Japan Meet.,
Nuclear Energy Paris, 1991
14. Japan’s Policy on Nuclear on Nuclear Fuels Cycle, 9th Germany-Japan- Meet., Nuclear Energy,
Toba, 1991
15. On Formation of Recycling Society, 23rd Semin. Reactor Physics, Kawaguchi-ko, 1991, 74-76
16. Laser-Induced Thermal Lens Spectroscopy for Actinide Determination in Aqueous and Organic
Solutions, Youichi Enokida and Atsuyuki Suzuki, Proc. 3rd Int. Conf., Nucl. Fuel Reprocessing
and Waste Management, Sendai, 1991, II, 875-880
17. Effect of Colloid on Neptunium (V) Transport through Quartz-Packed Column, Shinya
Nagasaki, Satoru Tanaka and Atsuyuki Suzuki, Proc. 3rd Int. Conf., Chemistry and Migration
Behanior of Actinides and Fission Products in the Geosphere, Jerez de la Frontera, 1991, 82-82
18. Dispersion Effect on Radionuclide Transport in Geologic Disposal Sysyem, Joonhong Ahn,
Yuko Makino and Atsuyuki Suzuki, 3rd Int. Cont., Nucl. Fuel Rerocess. Waste Manage.,
RECOD ’91, Sendai, 1991, 1022
19. An Improved Design Concept of Radwaste Repository, Atsuyuki Suzuki, Joonhong Ahn and
Yuko Makino, 11th int. Conf., Struct. Mech. Reactor Technol. (SmiRT 11), Tokyo, 1991, Trans.
SD1, 319
20. Radionuclied Transport Through Fracture Networks by Percolation Theory, Joonhong Ahn,
Atsuyuki Suzuki et al., 1991 Jt. Int. Waste Manage. Conf., Am. Soc. Mech. Eng., Seoul, 1991, 2,
291
21. Resonance ionization Mass Spectrometry for Surface Impurity Analysis of High Purity
Materials IUPAC Intern, Haruka Maeda, Atsuyuki Suzuki et al., Congr., Analytical Sciences,
Chiba, 1991
22. Double Resonance Spectroscopy of Lu Rydberg Levels, Proc. Annu. Meet., Jpn. Phys. Soc.,
1991, 2, 377
11
23. Energy Issues at the End of the Century, Nihon Sogo Shuppan
1992年
1. Characteristics of Ionization Probability with Adiabatic Inversion by Stochastic Fields, Atsuyuki
Suzuki et al. Physical Review
2. Effects of TBP on Solvent Extraction of Np(V) with n-Octyl(phenyl)-N, N-Diisobuty
lcarbamoylmethlphosphine Oxide, Atsuyuki Suzuki et al., J Nucl. Sci. Technol 29, P.263-268
3. Solvent Extraction of Np(V) with CMPO from Nitric Acid Solutions Containing U(VI)
Atsuyuki Suzuki et al., J. Nucl. Sci. Technol. 29, P.1100-1107
4. Oxidation of Pentavalent Neptunium by Notrous Acid in CMPO-TBP-n-Dodecane Organic
Solution, Atsuyuki Suzuki et al., J.Nucl.Sci.Technol.29、P.671-676
5. Characteristics of Ionization Probability with Adiabatic Inversion by Stochastic Fields, Atsuyuki
Suzuki et al., Phys. Rev. 45, P.5065-5072
6. Measurement of Isotopic Abundances by Resonance Ionization Mass Spectrometry Atsuyuki
Suzuki et al., 18th Int. Quantum Electronics Conf., Vienna 1992, P.142-143
7. Energy for Development of Human Society, J. JSME, 96(878), 4-8
8. Application of Laser-Induced Thermal Lens Oscillation to Concentration Measurement in
Organic Solutions, Youichi Enokida, Atsuyuki Suzuki et al., J. Nucl. Sci. Technol., 23, 255-262
9. Optical-microwave Double-resonance Spectroscopy of Highly Excited Rydberg States of
Ytterbium, H. Maeda, Y. Matsui, M. Takami and Atsuyuki Suzuki, Phys. Rev. A, 45,1732-1741
10. Japan’s Approach for Partitioning/Transmutation of Long-lived Nuclides, Tucson, Arizona
Waste management‘92
11. A Structural Analysis on Macro Energy Systems, Atsuyuki Suzuki, Energy Systems and the
Economics, Soc. of Energy and Resources, Tokyo, 1992, 131-134
12. Peace on Earth: Nuclear Energy—Burnin’ Clean, Look Japan, 38(437),34-35
13. Long-term Perspectives on Japan’s Nuclear Fuel Cycle Technologies, J. At. Energy Soc. Jpn.,
34(11), 1040-1043
14. Restructuring Japan’s Nuclear Power Development, Energy Forum, 452, 34-37
15. An Internationally Cooperative Approach of Nuclear Fuel Cycle Program in Japan, Energy
Forum, 454, 76-78
16. Advancement of Nuclear Fuel Cycle Technologies for 21st Century, OHM, 1001, 86-89
17. Estimation of Uranium (VI) Concentrations by Temperature Profile in Solvent Extraction
Processes Using 30% Tri-n-Butyl Phosphate Diluted with n-Dodecane, Youichi Enokida and
Atsuyuki Suzuki, J. Nucl. Sci Technol., 29, 461-471
18. Determination of Uranium (VI) over Wide Concentration Ranges in Aqueous Nitric Acid and
30% Tri-n-Butyl Phosphate by Laser-Induced Thermal Lensing Spectroscopy, Youichi Enokida,
12
Michinori Shiga and Atsuyuki Suzuki, Radiochim. Acta, 57, 101-104
19. Solvent Extraction of Np(V) with CMPO from Nitric Acid Solutions Containing U(VI), Shinya
Nagasaki, Kouichi Kinoshita, Youichi Enokida and Atsuyuki Suzuki, J. Nucl. Sci. Technol., 29,
1100-1107
20. Oxidation of Pentavalent Neptunium by Nitrous Acid in CMPO-TBP-n-Dodencane Organic
Solution, Shinya Nagaski, Kouichi Kinoshita, Djarot S. Wisnubroto, Youichi Enokida and
Atsuyuki Suzuki, J.Nucl. Sci. Technol., 29, 671-676
21. Characteristics of Ionization Probability with Adiabatic Inversion by Stochastic Fields, Shuichi
Hasegawa, Hitoshi Maeda, Atsuyuki Suzuki et al., Phys. Rev. D, 45, 5065-5072
22. Plate Wettability and Droplet Diameter in a Pulsed Perforated-Plate Extraction Column,
Hidematsu Ikeda and Atsuyuki Suzuki, Can. J. Chem. Eng., 70, 232-236
23. The Status and Prospect of the Back-End Fuel Cycle Technology Development in Japan,
Summer Semin., The Seoul Natl. Univ., Seoul
24. On Nuclear and Non-Nuclear Hazardous Wastes, Proc. Advancement of Nuclear Fuel Cycle
Technologies, Nagoya
25. Japan’s Approach to High-Level Waste Management, 2nd France-Japan Meet., Nuclear Energy,
Nara
26. Nuclear Development in Japan and Other East Asian Countries, 12th Meet., Programme for
promoting Nuclear Non-Proliferation, Gotenba
27. Why and How Does Japan Make Recycle Use of Plutonium?, Proc. 1993 Natl. Symp., Atomic
Energy, 23-24
28. Application of Laser-Induced Thermal Lensing Oscillation to Concentration Control in Solvent
Extraction Processes, Youichi Enokida and Atsuyuki Suzuki, Proc. Int. Conf., Instabilities in
Mutiphase Flows, Rouen, 1992, XI-1
29. Analysis of Tracer Dispersion in Flow through Two-Dimensional Network of Randomly
Distributed Lines by Percolation Theory, Joonhong Ahn, Katsuhiro Furukawa, Tetsuya
Uchimoto and Atsuyuki Suzuki, AGU 1992 Fall Meet., San Francisco, 1992, 437
1993年
1. Of the Plutonium Issue, Energy and Resources, 78, 127-131
2. Diffusion of the 241 Am→237Np Decay Chain Limited by Their Elemental Solubilities in
Artifical Barriers of High-Level Radioactive Waste Repositories, Joonhong Ahn and Atsuyuki
Suzuki, Nucl. Technol., 101, 79-91
3. Implications of Civilian Programs—A Japanese Perspective, Int. Wksp., Nuclear Disarmament
and Non- Proliferation: Issues for Int. Actions, Tokai Univ. and Princeton Univ., Tokyo
4. Plutonium-Myth and Truth, World and Japan, 739, 9-55
13
5. Japan’s Nuclear Policy and the Plutonium Issue, International Issues, 397, 44-56
6. Application of Photo-Induced Chemical Reactions to Nuclear Fuel Reprocessing, Atsuyuki
Suzuki et al., Chemical Engineering, 38(8), 37-42
7. Peaceful Use of Plutonium in Japan, Energy, 26(6), 39-41
8. Peaceful Use of Plutonium in Japan and the Future Perspectives, SEIKAI, 15(11), 124-127
9. Commercialization of FBR and the Nuclear Fuel Cycle, Energy Forum, 466, 71-76
10. Fast Transport of Colloidal Particles through Quartz Packed Columns, Shinya Nagasaki, Satoru
Tanaka and Atsuyuki Suzuki, J. Nucl. Sci. Technol., 30, 1136-1144
11. Temperature Effect on the Extraction of Np(V) by m-Octyl(Phenyl)-N,
N-diisobutylcarbamoylmenthylphosphine Oxide, Djarot S. Wisnubroto, Shinya Nagasaki,
Youichi Enokida and Atsuyuki Suzuki, Solvent Extr. Ion Exch., 11,377-387
12. Solvent Extraction of Neptunium by n-Octyl(Pheny)-N,
N-diisobutylcarbamoylmethylphosphine Oxide from Nitric Acid Solution Containing Hydrogen
Peroxide, Djarot S. Wisnubroto, Shinya Nagasaki, Youichi Enokida and Atsuyuki Suzuki,
Solvent Extr. Ion Exch., 11, 569-583
13. Effects of the laser parameters on the determination of the Sn isotope ratio, Shuichi Hasegawa
and Atsuyuki Suzuki, Phy. Rev., A48, 4588-4593
14. Application of Electrically Driven Liquid-Liquid Dispersion to Solvent Extraction Using
tri-n-Buthyl Phosphate, Tsuyoshi Usami, Youichi Enokida and Atsuyuki Suzuki, J. Nucl. Sci.
Technol. 30.1017-1023
15. The Japan’s Nuclear Fuel Cycle, Int. Symp. Post-Cold War Cooperative Denuclearization and
Plutonium Issues, International Institute for Global Peace and Center for Science and
International Affairs, Harvard University, Tokyo
16. Japan’s Strategy on High-Level Waste Management, Japan-China Meeting, High-Level Waste
Management, Beijing
17. Japan’s Strategy on High-Level Waste Management, Safewaste ’93, Avignon, Vol. 1, 408-415
18. Perspectives and Possibilities of Civilian Utilization of Nuclear Energy, Int. Conf., Nuclear
Technology and Politics, Rjyukan
19. The Plutonium Issue and the Environmental Problem, 4th Int. Conf. Nuclear Waste Management,
ASME, Prague
20. Japanese Nuclear Policy in a Changing World, 18th Annual Symp., Uranium Institute, London,
110-116
21. Nuclear Fuel Cycle and the Related Issues, Proc. Joint Convention Record of Institutes of
Electrical and Information Engineers, Tokyo, 73-76
22. Plutonium: Its Continued Use, Storage & Production, Roundatable Discussion, Atlantic Council,
Washington D. C.
14
23. Why Japan Persists in Closing Fuel Cycle? , IAEA Scientific Programme, Back-end of Nuclear
Fuel Cycle Evaluation of Options, Vienna
24. Pu Use in Japan, 3rd France-Japan Meeting(N-20), Sabran
25. Evolutional Development of Scientific Technologies with the Emphasis on Energy, AOD
Seminar, Tokyo
26. New Initiatives on Japanese Plutonium Policy, 4th JUSNET Meeting, San Francisco
27. Extraction Behaviour of Nitric Acid and Neptunium Using CMPO+TBP Mixtures, Djarot S.
Wisnubroto, Shinya Nagasaki, Youichi Enokida and Atsuyuki Suzuki, Proc. Int. Solvent Extr.
Conf. 93, Vol. 3, York, 1993, 1813-1820
28. Photochemical Reduction of U (VI) at Low Temperature in Aqueous Nitric Acid Solution and
its Application Feasibility to Solvent Extraction Process, Tsuyoshi Usami, Youichi Enokida,
Ryota Omori and Atsuyuki Suzuki, Proc. ISEC’93, 1554-1561
29. Nuclear Weapons Dismantling, (co-author), Denryoku Shinpo
30. Nuclear Fuel Cycle Engineering, Separation Technologies, ed, Japan Chemical Society,
Maruzen 1994 年
1. Plutonium as an Energy Resource, Genshiryoku Bunka, 24(7), 16-19
2. Of the Peaceful Use of Plutonium, 21st Century Forum, 49, 10-15
3. Influence of Fe (III) Colloids on Np(V) Migration through Quartz-Packed Columns, Shinya
Nagasaki, Satoru Tanaka and Atsuyuki Suzuki, J. Nucl. Sci. Technol., 31, 143-150
4. Burning-up Actinides and Long-Lived Fission Products? –A Japanese Perspective, NATO
Workshop, Managing the Plutonium Surplus: Applications and Options, Chatham House,
London
5. Socio-technological Issue related to Peaceful Use of Plutonium, NSRA Symp., Nuclear Safety,
Yamagata
6. Peaceful Use of Plutonium, Atsuyuki Suzuki, Roundtable Discussion, the Current Issue on
Plutonium, Tokyo
7. The Japanese Approach on Partitioning and Transmutation, Atsuyuki Suzuki, Waste
Management’94, Tucson
8. Assessment of Plutonium Security Effect Using the Import Premium Method, Atsuyuki Suzuki
et al., J. At Energy Soc. Japan, 36(3), 245-252
9. A Best-Mix Configuration of Electricity Generating System Using Replicator Model, Atsuyuki
Suzuki et al., Energy and Resources, 15(3), 302-309
10. Nuclear Energy, Energy and Resources, 15(4), 387-392
11. Dynamics of Macroscopic Energy Systems, Japanese Scientific Monthly, 47(9), 916-920
12. How to Implement the New Long-Term Program on Nuclear Energy Development for the
15
Future Trend of Globalization, Energy Forum, 40(478), 79-81
13. Of the Fast Breeder Reactor 「Monjyu」, Newton, 14(12), 86-91
14. Third Phase Formation in Nitric Acid Extraction by CMPO, Shinya Nagasaki and Atsuyuki
Suzuki et al., Solvent Extr. Ion Exch., 11(2), 459-473
15. Impact of Pseudocolloid Formation on Migration of Nuclides within Fractures, Shinya Nagasaki,
Tohru Nakatsuka, Satoru Tanaka and Atsuyuki Suzuki, J. Nucl. Sci. Technol., 31(6), 623-625
16. Colloid Formation of Americium in Bentomite, Shinya Nagasaki, Satoru Tanaka and Atsuyuki
Suzuki, Radioactive Waste Research, 1(1), 91-97
17. Colloid Formation and Sorption of Americium in the Water/Bentonite System, Shinya Nagasaki,
Satoru Tanaka and Atsuyuki Suzuki, Radiochim. Acta, 66/67, 207-212
18. Japan’s Nuclear Policy-Is Plutonium a Must for Japan? , Meeting of Carnegie Endowment Study
Group on Japan’s Role in Non-Proliferation and Arms Control, Washington D. C.
19. Global Perspectives on Plutonium, AESJ Summer Seminar on Nuclear Fuel Ishikawa-ken
20. Crucial Issues in Managing the Fuel Cycle-A Japanese Perspective, Financial Times Conf., The
Nuclear Industry-Into the 21st Century? London
21. National Choices for the Nuclear Fuel cycle-The AEC’s New Long-term Programme,
U.S.-Japan Non-Proliferation Experts Meeting, Washington D. C.
22. Myths about Civil Plutonium, U. S.-Japan Study Group on Non-Proliferation and Arms Control
After the Cold War, Shizuoka-ken
23. Of the Japan’s Nuclear Policy-The AEC’s New Long-term Programme, Science and Technology
Agency (STA) SPF Seminar, Tokyo
24. A Japanese Perspective with Special Reference to the International Nuclear Management
Regime, UN University Workshop Notrheast Asian Regional Securiy and The Role of
International Institute, Singapore
25. Effects of Smectite Illitization on Transport of Actinides through Engineered Barriers of HLW
Repositories, Joonhong Ahn, Atsuyuki Suzuki et al., Proc. Int’nl Symp. Scientific Basis for
Nuclear Waste Management (MRS’94)
26. Recent Situations concerning Radioactive Waste Disposal in Japan, U. K.-Japan Meeting on
Nuclear Industry, Tokyo
27. Recent Situations concerning Radioactive Waste Disposal in Japan, France-Japan Meeting on
Nuclear Energy, Kanazawa
28. Neptunium Separation from Nitric Acid Solution with CMPO, Shinya Nagasaki and Atsuyuki
Suzuki et al., Proc. RECOD’94, London, 1994
29. Global Environment and Waste Management (co-author), Atom. Energy. Soc. Japan
30. Data-Book on Global Environment, Ohm Sha
31. Issues in Japan (co-author), Bungei Shinjyu
16
32. Plutonium (editor & co-author), ERC Pub.
1995 年
1. The Separation of Lanthanides and Oxidation of Americium in Nitric Acid Solution by
Photolysis, Satoru Tsushima, Shinya Nagasaki and Atsuyuki Suzuki, J.Nucl. Sci. Technol., 32(2),
154-156
2. Effect of pH and Ionic Strength on Kaolinite Release from Quartz, Shinya Nagasaki and
Atsuyuki Suzuki et al., Proc. RECOD’94, London, 1994
3. Two-Color Spectroscopy of Nuclear Lead Observation of Even Parity J=0, 1, and 2 Spectra and
its Analysis with Multichannel Quantum Defect Theory, Shuichi Hasegawa and Atsuyuki
Suzuki, Resonance Ionization Spectroscopy 1994, Bernkastel-kues, Germany, 1994, 403-406
4. Resonance Ionization Spectroscopy of Pb, Shuichi Hasegawa, Atsuyuki Suzuki et al., Proc. 6th
Int. Symp. Advanced Nucl. Energy Research, Mito, Japan, 1994, 464-472
5. Quantitative Performance Allocation of Multi-Barrier System for High-Level Radioactive Waste
Disposal, Atsuyuki Suzuki, J. At. Energy Soc. Jpn., 37/1.59-77
6. Innovation of Nuclear Fuel Recycling Technologies, Energy Forum, 41/490, 79-81
7. Compatibility of Peaceful Use of Nuclear Energy and the Non-proliferation, Kaden, 14/1,
190-191
8. Optimization of Process for Co-decontamination Process Using Genetic Algorithms, J. Nucl. Sci.
Tech., 32, 1243-1249
9. Measurements of Optical Trapping Efficiency for Micro-sized Dielectric Particles in Various
Surrounding Media, Ryota Ohmori and Atsuyuki Suzuki, Optical Review, 3, 11-13
10. Genetic Programming Approach for Time Series Analysis and Prediction, Journal of the
Graduate School and Faculty of Engineering, Univ. of Tokyo, 43, 2, 201-220
11. Reducing Proliferation Risk-Expanding and Internationalization of Verification and Control
Regime: IAEA and Others: Managing Proliferation Risks from Civilian and Weapon-grade
Plutonium and Enriched Uranium, Proc, of 45, Pugwash Conference on Science and World
Affairs: Towards a Nuclear-Weapon-Free World
12. A Preliminary feasibility Study on Paritioning Techniques for High-Level Radioactive Wastes,
Proc. of 5th International Conference on Radioactive Waste Management and Environmental
Remediation (ICEM), American Society of Mechanical Engineers
13. Measures to Improve IAEA Safeguards, Proc. Japan-US Meet. on Non-Proliferation Issues,
Atlantic Council
14. Recent Situations concerning Radioactive Waste Disposal in Japan, Proc. GLOBAL’95
15. Japan’s Civil Use of Foreign Military Plutonium. Proc. GLOBAL‘95
16. Performance of Minor Actinides Recycling LMRs, Proc. GLOBAL’95
17
17. Nuclear Power and Non-Proliferation: Where to Draw the Line. Japan-US Meet. on
Non-Proliferation and Arms Control after the Cold War, Carnegie Endowment
18. Innovation of Nuclear Fuel Recycling Technologies, Proc. of Division of Nuclear Fuel, Atomic
Energy Society of Japan
19. A View on Peaceful Uses of Nuclear Energy in the Future, Proc. International Forum on Nuclear
Non-Proliferation
20. International Trends on Radiological and Environmental Safety Criteria and Reoptimization of
Japanese Long-Term Program on Nuclear Energy Utilization, Proc. Annu. Symposium of
National Institute of Radiological Sciences
21. Safe Management of W-Grade Plutonium, Proc. 27th Safety Seminar of Nuclear Safety Research
Association
22. Facilitated Transport of Charge Colloids in Geologic Media, Shinya Nagasaki, Atsuyuki Suzuki
et al., Proc. Scientific Basis for Nuclear Waste Management XVIII, edited by R. C. Ewing
(Material Research Society Symposium Proceedings)
23. Effects of Smectite Illitization of Actinides through Engineering Barriers of HLW Repositories,
Shinya Nagasaki, Atsuyuki Suzuki et al., Proc. Scientific Basis for Nuclear Waste Management
XVIII, edited by R.C. Ewing (Material Research Society Symposium)
24. Release of Kaolinite Colloids from Quartz Power Packed Column under Steady Flow Condition,
Shinya Nagasaki, Atsuyuki Suzuki et al., Abstracts of 1995 International Chemical Congress of
Pacific Basin Societies
25. Function Disconery based on the Genetic Recursive Regression Its Principals and Application
“Examples for Time Series Forecasting”, 15th International Symposium on Forecasting
26. Nuclear Non-proliferation and the US/Japan Relationship at the Post-Cold War Age, Carnegie,
Tokyo
27. Managing the Plutonium Surplus, Applications and Technical Options (co-author), NATO/ASI
1996 年
1. Optical Trappings of ThO2 and UO2 Particles Using Radiation Pressure of a Visible Laser Light,
Ryota Ohmori and Atsuyuki Suzuki, J. Nucl. Sci. Technol., 33, 12, 956-963
2. Effects of Optical Constants of Metallic Oxide Particles on the Optical Trapping Performances,
Rev. Laser Eng., 24, 11, 1178-1185
3. Experimental Investigation of New Concentration Measurements using Nonlinear Dynamics
through Laser-induced Thermal Lens Oscillation, Youichi Enokida and Atsuyuki Suzuki,
Applied Optics, 35, 18, 3223-3229
4. Core Performance of Fast Reactors for Actinide Recycling Using Metal, Nitride and Oxide Fuel,
Nuclear Technology, 116, 173-179
18
5. Separation of Uranium and Lanthanides by Photolysis and its Application to Nuclear Fuel
Reprocessing, Journal of Nuclear Science and Technology, 33, 10, 810-811
6. Photochemical Oxidation of Americium in Dilute Nitric Acid Solution with the Addition of
Ozone, Separation Science and Technology, 31, 17, 2443-2453
7. Resonance ionization spectroscopy and analysis on even-parity states of Pb I, Phys. Rev. A, 53,
3014-3022
8. A Proposal on International Collaboration with Nuclear Power Development in East Asia,
Energy Workshop of Northeast Asia Cooperation Dialogue V, Institute of Foreign Affairs and
National Security (IFANS)
9. A Number of Uncertainties Associated with FSU’s Excess W-Grade Plutonium, Meet. The
Nuclear Challenges of the Next Century, co-sponsored by Finnish Institute of International
Affairs, Center for Science and International Affairs, Harvard Univ., Swedish Institute of
International Affairs and Institute for International Policy Studies
10. Strategies for Geological Disposal of High-Level Radioactive Wastes-Overseas Experiences and
Japan’s Program, 29th JAIF Annu. Conference
11. The Outlook on Energy Situations in East Asia, Todai Symposium: More Common and Efficient
Use of Data concerning Science and Technology in Asia and Oceania
12. Nuclear Fuel Cycle in Japan: Status and Perspective, 10th Pacific Basin Nuclear Conference,
Atomic Energy Society of Japan
13. Nuclear Power Generation: Perspectives and Subjects, International Symp. of JAPAC’97, The
Japanese Committee for Pacific Coal Flow
14. Possibilities of Japan’s Contribution for Disposition of Excess Weapon-Grade Plutonium and A
Proposal on International Collaboration for Safe, Secure and Efficient Stores of Spent MOX
Fuel Arising from Application of Reactor Option, US-Japan Nuclear Non-proliferation Dialogue
15. Management of Separated Plutonium Designated as No Longer Required for Defense Purposes,
Experts Meet. On Disposition of Surplus Weapons Plutonium
16. Two-color Resonance Ionization Spectroscopy of Autoionization states of Pb, Shuichi
Hasegawa and Atsuyuki Suzuki, Proc. 8th Int. Symp. Resonance Ionization Spectroscopy and Its
Applications, State College, 1996, 122
1997 年
1. Sorption Behavior of Np(VI), Np(V) and Am(III) in the Disturbed Zone between Engineered
and Natural Barriers, S.Nagasaki, A.Suzuki, et al., Journal of Radioanalytical and Nuclear
Chemistry Letters, 241(5), 381-389
2. Systems Analysis of the DUPIC Fuel Cycle in Korea, J.M.Kang, A.Suzuki, Journal of the
Graduate School and Faculty of Engineering, University of Tokyo, 44(1), 11-36
19
3. Affinity of Finely Dispersed Montmorillonite Colloidal Particles for Americium and
Lanthanides, S.Nagasaki, A.Suzuki et al., Journal of Nuclear Materials, 244, 29-35
4. Nuclear Power Generation: Perspectives and Subjects, International Symposium of JAPAC'97,
The Japanese Committee for Pacific Coal Flow
5. Possibilities of Japan's Contribution for Disposition of Excess Weapon-Grade Plutonium and A
Proposal on International Collaboration for Safe, Secure and Efficient Storage of Spent MOX
Fuel Arising from Application of Reactor Option, US-Japan Nuclear Non-proliferation Dialogue,
Harvard University
6. Japan's Recent Situations with Nuclear Fuel Cycle Program, Japan-Switzerland Nuclear
Cooperation Workshop, PSI
7. What are the International Collaborations Earnestly Required for Further Steady Development
of Nuclear Energy in Asia? (Invited), 30th Annual Conference of Japan Atomic Industrial
Forum
8. Potential Areas of Japan's Contribution for Disposition of Excess Weapons Plutonium, 1st Santa
Fe Energy Seminar
9. Issues Related to Nuclear Power Policies in Japan, 1st Santa Fe Energy Seminar
10. An Observation on Japan's Nuclear Power Program with a Special Emphasis on Management of
Nuclear Fuel Waste, Global'97
11. Effect of Chrolide Ion on Uranium(VI) Detection with Time-resolved Laser-induced
Fluorescence Spectroscopy, S.Nagasaki, A.Suzuki et al., Abstract of the 40 th Symposium on
Radiochemistry, Riken, 1997, 256-257
12. Interfacial Behavior of Actinides with Colloids in Geosphere, S.Nagasaki, A.Suzuki et al.,
Journal of Nuclear Materials, 248, 323-327
13. Diffusion of Charged Spherical Particles in Binary System, Back-end of Nuclear Fuel Cycle,
4( 1), 3-7
14. Charge Distribution on Surfaces of 2:1 Type Clay Minerals, S.Nagasaki, A.Suzuki et al., Surface
Chemistry,18(11), 40-42
15. Application of Molecular Orbital Calculation for Evaluating Binding Force of Water Molecules
Sorbed on Surface of 2:1 Type Clay Mineral, S.Nagasaki, A.Suzuki et al., Surface Chemistry,
18(12), 52-54
16. Separation and Coprecipitation of Lanthanides and Americium by Photolysis, S.Tsushima,
S.Nagasaki, A.Suzuki, Nuclear Technology 118, 42-48
17. Photochemical separation and co-precipitation of lanthanides in nitric acid solution, S.Tsushima,
S.Nagasaki, A.Suzuki, Journal of Photochemistry and Photobiology A:Chemistry, 106, 57-60
18. Raman Spectroscopic Study of Uranium Adsorption, Satoru Tsushima, Shinya Nagasaki and
Atsuyuki Suzuki, Spectroscopy 46(3), 118-120
20
19. Laser Raman Spectroscopic Study of Uranyl Adsorption onto Colloidal Silver and Silver Oxide
Surfaces, Satoru Tsushima, Shinya Nagasaki and Atsuyuki Suzuki, Back-end of Nuclear Fuel
Cycle, 4(1), 9-17
20. Analysis on DUPIC Fuel Cycle in Aspect of Overall Radioactive Waste Management, J.M.Kang,
A.Suzuki, Journal of Nuclear Fuel Cycle and Environment 4(1), 19-27
21. Characteristics of Nonlinear Dynamics Dependent on TBP Concentration Change in the
Extraction Process for Nuclear Fuel Reprocessing, H.Ikeda, A.Suzuki et al., Nuclear Technology,
120, 81-85
22. Observation of a Single-Beam Gradient-Force Optical Trap for Dielectric Particles in Air,
R.Omori, A.Suzuki et al., Optics Letters,22,816-818
23. A Raman Spectroscopic Study of Uranyl Species Adsorbed on Solid Particles, S.Tsushima,
S.Nagasaki, S.Tanaka, A.Suzuki, Abstracts of the Sixth International Conference on the
Chemistry and Migration Behaviour of Actinides and Fission Products in the Geosphere, Sendai,
1997, 66
24. Speciation of Uranium under Photochemical Reductive Process Studied by Laser Raman
Spectroscopy, S.Tsushima, S.Nagasaki, A.Suzuki, Abstracts of XVIIIth International Conference
on Photochemistry, Warsaw,1997, 3P78
25. Formation of Three-dimensional Spatial Patterns Consisting of Glass Particles Using a
Single-beam gradient Force Optical Trap in Air, R.Omori, A.Suzuki, European Symposium on
Laser and Optics in Manufacturing, Munich, 1997, 685-691
1998 年
1. Geochemical Behavior of Actinides in High-Level Radioactive Waste Disposal, S.Nagasaki,
A.Suzuki et al., Progress in Nuclear Energy,32(1/2), 141-161
2. Binding Force between Clay Mineral and Water Molecules by Semi-Empirical Molecular
Orbital Calculation, S.Nagasaki, A.Suzuki et al., Material Research Society Symposium
Proceedings, Davos, Switzerland, 1997, 423-430
3. Potential Areas of Japan's Contribution for Disposition of Excess Weapons Plutonium,
Harvard/Todai Workshop
4. Towards a More Flexible and More Robust Nuclear Fuel Cycle Program in Japan, US-Japan
Nuclear Non-proliferation Dialogue
5. A More Flexible and More Robust Way to Make Peaceful Use of Nuclear Power --- with special
emphasis on management of nuclear spent fuel, Tokyo Asian Atomic Energy Forum
6. A Proposal for Furthering International Collaboration on Disposition of Russian Excess W-Pu ,
International experts to discuss the management of surplus ex-weapons plutonium, P.8 Meeting,
London
21
7. A Financing System for International Collaboration on Disposition of Russian Excess W-Pu,
2nd Santa Fe Energy Seminar
8. Observations on Japan's Programme of Radioactive Waste Management, PBNC '98
9. Potentialities of High Temperature Gas-cooled Reactor for Disposition of Surplus
Weapons-Plutonium, the ISTC, Scientific Advisory Committee, Seminar on "New Approaches
to the Nuclear Fuel Cycles and Related Disposal Schemes, taking into account the existing
excessive quantities of weapons grade U and Pu and reactor grade Pu"
10. Sorption Equilibrium and Kinetics of NpO2+ onto Illite, S.Nagasaki, A.Suzuki et al.,
Radiochimica Acta, 82, 263-267
11. Diffusion of Binary Suspensions of Charged Colloids, S.Nagasaki, A.Suzuki et al., Journal of
Contaminant Hydrology, 35(1-3), 277-284
12. Two Sorption Processes of NpO2+ within Amorphous Hydrous Ferric Oxide, S.Nagasaki,
A.Suzuki et al., Journal of Alloys and Compounds, 271-273, 252-256
13. Structure of Ringed Silicate Cluster and Amorphus Silica-Applicability of Semi-Empirical
Molecular Orbital Calculation, Shinya Nagasaki, Kotaro Nakata, Satoru Tsushima, Satoru
Tanaka and Atsuyuki Suzuki, Back-end of Nuclear Fuel Cycle, 5(1), 73-79
14. Adsorption/Desorption of Redox Sensitive Lanthanides on Metal Oxides Interface, S.Nagasaki,
A.Suzuki et al., Radiochimica Acta, 82, 239-242
15. A Raman Spectroscopic Study of Uranyl Species Adsorbed on Colloidal Particles, S.Tsushima,
S.Nagasaki, S.Tanaka, A.Suzuki, The Journal of Physical Chemistry B, 102 (45), 9029-9032
16. Forces of a Single-Beam Gradient-Force Optical Trap on Dielectric Spheroidal Particles in the
Geometric-Optics Regime, R.Omori, A.Suzuki et al., Japanese Journal of Applied Physics, 37,
pp.6012-6015
17. Uranium Dioxide Particles Collection Using Radiation Pressure of a Laser Light in Air,
R.Omori, A.Suzuki et al., Journal of Nuclear Science and Technology 35(11), 830-832
18. Two-Dimensional Measurement of Rotational Speed of a Diffuse Object Based on Laser
Doppler Anemometry, R.Omori, A.Suzuki et al., Japanese Journal of Applied Physics, 37, 4B,
L450-L452
19. Radiolysis of n-dodecane and Its Physical Property Change Based on the Dose in One Pass
through a Reference HA Column, H.Ikeda, A.Suzuki, Journal of Nuclear Science and
Technology 35(10), 697-704
20. The End of the Cold War and the Emerging Nuclear Era - Global Nuclear Materials
Management (Invited), CSIS Conference Report, Energy and National Security Program,
December 4
1999 年
22
1. Impacts and Lessons from the Nuclear Criticality Accident, Plutonium, No. 27, p1, December,
1999
2. Japan’s Technical Cooperation on Plutonium Disposition for Nuclear Weapons Dismantlement,
Plutonium, No.25, April,1999
3. Non-technical Considerations in Regulation of Very Low Level Radioactive Waste:
Comparative Analysis of Japan and the United States, S.E.Pickett, A.Suzuki, Journal of Nuclear
Science and Technology, 36(12), 1111-1118
4. Influence of Pseudocolloid Formation of Neptunium on its Migration in Geosphere, S.Nagasaki,
A.Suzuki et al., Colloids and Surfaces A, 155, 137-143
5. Multiple Spectra Method for Delayed Neutron Nondestructive Assay of Nuclear Materials
Using Genetic Algorithms, N.Shaaban, R.Omori, A.Suzuki, Journal of Nuclear Science and
Technology 36(12), 1209-1212
6. Improved Solution of the Neutron Diffusion Equation Using Wavelet Theory, H.Nasif, R.Omori,
A.Suzuki, Journal of Nuclear Science and Technology 36(9), 839-842
7. Rotation of Optically Trapped Particles in Air, R.Omori, A.Suzuki et al., Japanese Journal of
Applied Physics 38, L743-L745
8. Investigation of the Interaction between Organic Compounds and Uranyl Ions by Raman
Spectroscopy, S.Tsushima, S.Nagasaki, S.Tanaka, A.Suzuki, Czechoslovak Journal of Physics,
49(S1), 783-787
9. Ab Initio Effective Core Potential Study of Equatorially Coordinated Uranyl Species - Effect of
Hydration to the Calculated Properties- , S.Tsushima, A.Suzuki, Journal of Molecular Structure
(THEOCHEM), 487(1-2), 33-38
10. Complex of Uranyl and Organic Substances by Molecular Orbital Calculation, S.Nagasaki,
S.Tsushima, M.Todoriki, S.Tanaka, A.Suzuki, Czechoslovak Journal of Physics, 49(S1),
623-628
11. Sorption of Neptunium on Ion-containing Minerals, K.Nakata, T.Fukuda, S.Nagasaki, S.Tanaka,
A.Suzuki, Czechoslovak Journal of Physics, 49(S1), 159-166
12. Sorption Characteristics of Np on Fe(II)+Fe(III) Oxides, K.Nakata, A.Suzuki et al., JAERI-Conf
99-004
13. Japan’s Potential Contributions for Safe Management of Russian Excess W-Pu, 9th Symposium,
21st Century Policy Research Institute
14. Japan’s Potential Contributions for Technological Cooperation of Excess W-Pu Management,
Plutonium, No.25, P.5-7
15. Impacts and Lessons from the Criticality Accident, Plutonium, No.27, p.1-1
16. International Strategic Storage of Nuclear Spent Fuel for Global Peace, UT-Kurchatov, Moscow,
Feb. 4-5
23
17. Japan’s Current Situation in Nuclear Power, JAIF-Harvard Kennedy School Workshop on
Nuclear Non-Proliferation, Cambridge, MA, Feb. 10-11
18. A Japan’s View on Surplus W-Pu Disposition, The 3rd Harvard-Todai Workshop , Cambridge,
Feb. 18-19
19. The Next 25 Years – the First Quarter of the Century for Environment (Invited), Waste
Management 99, Tucson, March 1
20. International Cooperation of Radioactive Waste Management, Waste Management 99, Tucson,
March 3
21. International Cooperation on Back-end of Nuclear Fuel Cycle (Invited), MIT-Tsinghua
University, Beijing, March 26-27
22. The Status Quo and Future Trends on Radioactive Waste Disposal (Invited), Special Committees
on Siting Issues, Japan’s Atomic Industrial Forum, Tokyo, May 14
23. More Proliferation-resistant Nuclear Fuel Cycle Technologies (Invited), LLNL, Livermore, June
1-4
24. A Strategic Approach for International Collaboration on Environmental Remediation in the CIS
(Invited), Proceedings of the 2nd ISTC/SAC Seminar “Large Scale Area Remediation”,
p1-64-68,Snezhinsk , June 21-24
25. A Proposal for Options of International Storage of Nuclear Spent Fuel (Invited), CSIS,
Washington DC, July 21-23
26. Japan’s Approach for Research and Development of Advanced Nuclear Fuel Recycling
Technologies, Global’99, Jackson-Hole, August 30-Sept. 3
27. Nuclear Policy and Technologies: Issues and Interactions – A Path toward a More Healthy and
Sustainable Global Nuclear Energy Future, Western Powers and Regional Perspectives on
Nuclear Futures: Building a Global Consensus? (Invited), International Collaboration for
Global Nuclear Future, Institute of International Studies and Strategy, London, Dec. 2-3.
28. The Management and Repercussions of Nuclear Power(Panel), Ditchley Foundation、
Oxfordshire, Dec. 3-5.
2000 年
1. Managing the Global Nuclear Materials Threat – Policy Recommendations (Task Force Chair),
Center for Strategic and International Studies (CSIS), January
2. Hydration Numbers of Pentavalent and Hexavalent Uranyl, Neptunyl, and Plutonyl,
S.Tsushima, A.Suzuki, Journal of Molecular Structure (Theochem) 529, 21-25
3. Towards Rebuilding the Confidence for Nuclear Power, Energy, 33(1), 28-30
4. Flexibility is the Key for Back-end of Nuclear Fuel Cycle, Plutonium No.28, 2-6
5. Moving forward the Back-end of Nuclear Fuel Cycle, Energy Review, February, 4-7
24
6. Energy Choices for 21st Century, Asahi Sym., Asahi Shinbun, February 11
7. Japan’s Nuclear Future, Evening Seminar at Ibaraki University, April
8. Nuclear Development as a Future Option, KAGAKU, Vol.70, Iwanami, 525-530
9. Nuclear Program in the Future Energy Policy, Hiroba, Tohoku Genshiryoku Kondankai 271,
1-47
10. Japan’s Program for Back-end of Nuclear Fuel Cycle – Flexibility is the Key,
atw(atomwirtschaft-atomtechnik),vol.45, 516-519
11. Nuclear Energy Towards 21st Century, Denki Shinbun, October 27
12. Watch the Troubles, albeit tiny, Comment, Tokyo Shinbun, December 23
13. Nuclear Technology in 21st Century, Panel Discussion, 50th Anniversary Karyoku Genshiryoku
Hatsuden Taikai, 19-20, October 25-27
14. To be More Flexible for Back-end of Nuclear Fuel Cycle in Japan, Plutonium, No.28
15. Japan’s Program for Back-end of Nuclear Fuel Cycle – Flexibility is the Key, International
Seminar on Advanced Nuclear Energy Systems toward Zero Release of Radioactive Wastes,
Susono, Shizuoka, 26-27, November 6-9
16. Numerical Analyses for Efficient Photoionization by Nonmonochromatic Fields, S.Hasegawa,
A.Suzuki, Japanese Journal of Applied Physics, 39, 4028-4033
17. Measurement of Velocity Distribution of Ground State Mn Atoms Using Resonance Ionization,
S.Hasegawa, A.Yamasaki, A.Suzuki, Applied Surface Science 161, 323-327
18. Japan’s Current Situation in Nuclear Power, US-Japan Non-proliferation Workshop
19. Recent Progress on Japan’s Program for High-level Radioactive Waste Disposal, Harvard
Kennedy School Workshop on nuclear nonproliferation
20. Japan’s Current Situation in Nuclear Power, Harvard Kennedy School Workshop on Nuclear
Nonproliferation
21. Global Peace Initiative – A proposal of International Collaboration for a More Healthy and
Comfortable Nuclear Future, Nuclear Cooperation Meeting on Spent Fuel Storage and Disposal
22. Causes of the JCO Criticality Accident and Lessons Learned, OECD/NEA Workshop on
Nuclear Fuel Cycle Safety
23. Issues over which the Nuclear Industry has Major Influence -Remarks at the Workshop on the
World-wide Future of Civil Nuclear Energy, The Royal Institute of International Affairs
24. Recent Advances on Japan’s Program of High-level Radioactive Waste Management, 7th
Japan-France Nuclear Experts Meeting(N-20)
25. Strategic Views on Back-end of Nuclear Fuel Cycle –Flexibility and Transparency are the Key,
The Pacific Forum, CSIS and Sandia National Laboratories “Workshop for Asia Nuclear Experts
on Transparency in the Back End of the Fuel Cycle”
25
2001 年
1. Safety Assurance for Confidence Rouilding, Energy Security for 21st Century, Sekai to Nihon,
No.939
2. High-Q concentrated directional emission from egg-shaped asymmetric resonant cavities,
K.Shima, R.Omori, A.Suzuki, Optics Letters, 26, 795-797
3. Analysis of Critical Electricity Price for the Investment for Constructing a Nuclear Power Plant
using Real Options Approach, S.Takizawa, R.Omori, A.Suzuki, K.Ono, Journal of Nuclear
Science and Technology, 38(10), 907-909
4. Empirical Correlations for Radiolytic Degradation of n-Dodecane -Density,Viscosity and Phase
Separation Time, H.Ikeda, A.Suzuki, Journal of Nuclear Science and Technology,
38(12),1138-1140
5. Theoretical Gibbs Free Energy Study on UO2(H2O)n2+ and its Hydrolysis Products, S.Tsushima,
T.X.Yang, A.Suzuki, Chemical Physics Letters 334(3-4), 365-373
6. Theoretical Estimation of Uranyl Hydrolysis Reaction Data, S.Tsushima, T.X.Yang, A.Suzuki, J.
At. Energy Soc. Japan, Vol.43, No.9, 903-905
7. Thermochemical Study of Uranium by Ab Initio Quantum Chemical Calcutaions, T.X.Yang,
S.Tsushima, A.Suzuki, Bach-end of Nuclear Fuel Cycle, 7(1), 75-79
8. Quantum Mechanical and Molecular Dynamical Simulations on Thorium(IV) Hydrates in
Aqueous Solution, T.X.Yang, S.Tsushima, A.Suzuki, Journal of Physical Chemistry A,105,
10439-10445
9. Plasma potential in the presence of an external electric field, H.Kurosawa, S.Hasegawa,
A.Suzuki, Journal of Applied Physics, 90(8) 3713-3719
10. Influence of charge exchange on the collection of the laser produced ions, S.Hasegawa, M.Takei,
A.Suzuki, H.Kurosawa, Journal of Applied Physics, 90(12), 5878-5883
11. The use of genetic algorithms for the improvement of energy characteristics of CdZnTe
Semiconductor Detectors, N.Shaaban, S.Hasegawa, A.Suzuki, H.Takahashi, Genetic
programming and evolvable machines, 2(3), 289-299
12. Roles and Thoughts of Nuclear Safety Commission related to HLW Disposal Safety, Prepared
for the meeting with NWTRB
13. International Cooperation in the Area of Back-end of Nuclear Fuel Cycle, Fuel Cycle and
Materials Administration, Atomic Energy Council, Taipei
14. A Unified Framework of Safety Assurance for Underground Disposal of Radioactive Waste,
Fuel Cycle and Materials Administration, Atomic Energy Council, Taipei
15. A Unified Framework for Safety Assurance of Underground Disposal of Radioactive Waste,
Global 2001
16. Of the JAEC’s New Long-term Program for Research, Development and Utilization of Nuclear
26
Energy, US-Japan Non-proliferation Workshop
17. Interim Storage of Spent Nuclear Fuel - A Safe, Flexible, and Cost-Effective Near-term
Approach to Spent Fuel Management, M.Bunn, J.P.Holdren, A.Macfarlane, S.E.Pickett,
A.Suzuki, T.Suzuki, J.Weeks, A Joint Report from the Harvard University Project on Managing
the Atom and the University of Tokyo Project on Sociotechnics of Nuclear Energy, June, 2001
18. Nuclear Program in 21st Century – How to meet the Energy Security, Plutonium No.32
19. Disposition of High-Level Waste and Spent Nuclear Fuel, The Continuing Societal and
Technical Challenges, W.North, C.McCombie, A.Suzuki, et.al., National Academy Press
20. The Role of Fast Breeder Reaclor “Monju”, Denki Kyokai, 52-56
21. Need for US-Japan Cooperation in the area of Nuclear Waste Management Policy, Ronten,
Yomiuri Shinbun 22. Chairman’s Opening Address-Nuclear Safety and Security-An Important of Nuclear Fuel Cycle
Technology, NUCEF 2001, Tokai
2002年
1. A Challenging Issue on High-Level Radioactive Waste Disposal――Dispelling Public Concerns,
US-Japan Workshop on Nuclear Energy in a New Era, A Program of the Santa Fe Energy
Seminar Series, Washington D.C. April 28-30,2002
2. Choices in the Long-term Radioactive Waste Management and Policy Aspects, NEA Steering
Committee’s Policy Debate, OECD, Paris, May 24
3. An National and International Overview on High-level Radioactive Waste Disposal, Workshop,
Advisory Board of High-level Radioactive Waste Repository Safety, Nuclear Safety
Commission, February 15
4. Policy Science for Nuclear Safety – Plutonium Use at LWR’s, Atomic Energy Society, Japan
5. Another Nuclear Material Management and the Risk Management, Nuclear Material Control
Center News, September
6. Present Activities and Future Direction on Fuel Cycle Safety in Japan, OECD/NEA Workshop
on Nuclear Fuel Cycle Safety, October
7. The Current Issues on Nuclear Power, Tokyo Shinbun
8. Remarks at the Panel, Session10: International Regime for the Safe Management of Radioactive
Waste, IAEA International Conference on Issues and Trends in Radioactive Waste Management,
Vienna, 9-13 December
