Reports of Faculty of Science, Shizuoka University, Vol. 39, pp. 21 – 90 (2005).

 

Cold Fusion Phenomenon – A Review

 

H. Kozima

 

Cold Fusion Research Laboratory, Yatsu 597-16, Shizuoka, Shizuoka 421-1202, Japan. E-mail: cf-lab.kozima@nifty.ne.jp.

 

REFERENCES

 

 A. Proceedings of Conferences

 B. Full List of Papers Referred in This Review

 C. Papers Published by the Author and His Collaborators

 

 

 A. Proceedings of Conferences

 The following list is full names of Proceedings of Conferences cited in this paper while abbreviated notations such as Proc. ICCF2 are used in the list of papers given in 2. Papers Referred in This Review.

 

1) Proceedings of 1st Annual Conference on Cold Fusion (Proc.  ICCF1) (Salt Lake City, March 28 - 31, 1990, Utah, USA), National Cold Fusion Institute, Salt Lake City, Utah, USA.

2) Conference Proceedings 33 (1991) (Science of Cold Fusion (Proc.  ICCF2) (June 29 - July 4, 1991, Como, Italy)) Italian Physical Society, 1991.

3) Frontiers of Cold Fusion (Proceedings of 3rd International Conference on Cold Fusion (Proc.  ICCF3)) (October 21 - 25, 1992, Nagoya, Japan), Universal Academic Press, Tokyo, 1993.

4) Transactions of Fusion Technology, 26 (1994) (Proceedings of Fourth International Conference on Cold Fusion ( Proc. ICCF4)), (December 6 - 9, 1993, Hawaii, USA), American Nuclear Society, Urbana, Illinois, USA, 1994.

4') Proc. ICCF4  (Hawaii, USA, Dec. 6 - 9, 1993), 1 - 4 (1994), EPRI, Palo Alto, California, USA, 1994.

5) Proceedings of Fifth International Conference on Cold Fusion (Proc. ICCF5) (April 9 - 13, 1995, Monte Carlo, Monaco), Office of ICCF5, Valbonne, France, 1995.

6) Progress in New Hydrogen Energy (Proc. ICCF6) (Oct. 14 - 17, 1996, Hokkaido, Japan), New Energy and Industrial Technology Development Organization, The Institute of Applied Energy, Tokyo, Japan, 1996.

7) The Best Ever! (Proc. ICCF7) (April 20 - 23, 1998, Vancouver, Canada), ENECO Inc. Utah, USA, 1998.

8) ICCF8 (May 21 - 26, 2000, Lerici, Italy), Italian Physical Society, 2001.

9) Proc. ICCF9 (May, 2002, Beijing, China) (to be published in 2003).

9') Abstract of ICCF9 (May, 2002, Beijing, China) p.  (2002).

10) Proc. ICCF10 (August 224 - 29, 2003, Cambridge, MA, USA) (to be published).

11) Proceedings of International Conference on Anomalous Nuclear Effects in Deuterium/Solid System (Proc. ICANEDSS), (Oct. 22 - 23, 1990, Utah, USA), AIP Conference Proceedings 228 (1991).

12) J. New Energy 1-1, (1996), (Proceedings of 1st Conference on Low Energy Nuclear Reactions June 19, 1995, Texas A&M University, College Station, TX).

13) J. New Energy 1-3, (1996), (Proceedings of 2nd Conference on Low Energy Nuclear Reactions (Sept. 13 - 14, 1996, Texas A&M University, College Station, TX).

14) Proceedings of the 4th Meeting of Japan CF Research Society (Proc. JCF4) (Oct. 17 - 18, 2002, Morioka, Japan) (1993).

 

 

B. Full List of Papers Referred in This Review

 

Achiwa N. 1998; N. Achiwa, M. Hino, K. Kakurai and S. Kawano, ”Larmor Precession of Neutron Spin through Helical Magnetic Crystal of Holmium,”  Physica B  B241-243, 1204 (1998).

Alekseev, V.A. 1994; V.A. Alekseev, V.I. Vasil'ev, V.A. Romodanov, Yu.F. Ryshleov, V.I. Savin, Ya.B. Skuratnik and V.M. Strunnikov, ”Tritium Production in the Interaction of Dense Streams of Deuterium Plasma with Metal Surfaces,” Tech. Phys. Lett.  26, 207 (1994).

Arapi, A. 2002; A. Arapi, S. Narita, R. Ito, N. Sato, M. Itagaki and H. Yamada, ”New Element Production on/in Deuterated and Hydrated Palladium Electrodes by DC Glow Discharge,” Jpn. J. Appl. Phys.  41, pp. L1181-L1183 (2002).

Arata, Y. 1992; Y. Arata and Y-C. Zhang, ”Reproducible 'Cold' Fusion Reaction using a Complex Cathode,” Fusion Technol.  22, 287 (1992).*

Arata, Y. 1993; Y. Arata and Y-C. Zhang, ” 'Cold Fusion' in a Complex Cathode,” Proc. ICCF3 pp. 441 - 444 (1993).

Arata, Y. 1994; Y. Arata and Y-C. Zhang, ”Achievement of Solid-State Plasma Fusion (,”Cold Fusion,”),” Proc. Japan Acad.  70B, 106 (1994).

Arata, Y. 1995; Y. Arata and Y-C. Zhang, ”A New Energy Caused by 'Spillover-Deuterium' ,” Proc. Japan Acad.  71B, 304 (1995).

Arata, Y. 1996; Y. Arata and Y.-C. Zhang, ,”Achievement of Solid-State Plasma Fusion ('Cold Fusion'),”  Proc. ICCF6 pp. 129 - 135 (1996).

Arata, Y. 1997; Y. Arata and Y-C. Zhang, ”Solid-State Plasma Fusion (,”Cold Fusion,”),” J. High Temperature Society (Japan) 23, 1 (1997).

Arata, Y. 1999; Y. Arata and Y-C. Zhang, ”Anomalous Production of Gaseous ⁴He at the Inside of 'DS-Cathode' during D₂O Electrolysis,” J. High Temperature Society (Japan) 75B, 281 (1999).

Arata, Y. 2002; Y. Arata, H. Fujita and Y.-C. Zhang, ,”Intense Deuterium Nuclear Fusion of Pycnodeuterium-lumps Coagulated Locally within Highly Deuterated Atom Clusters,”,  Proc. Japan Acad.  78B, 201 - 204 (2002).

Azumi, K. 1993; K. Azumi, S. Ishiguro, T. Mizuno and Masahiro Seo, ”Acoustic Emission from a Palladium Electrode During Hydrogen Charging and Its Release in a LiOH Electrolyte,” J. Electroanal. Chem.  347, 111 - 121 (1993).

Baranowski, B. 1990; B. Baranowski, S.M. Filipek, M. Szustakowski, J. Farny and W. Woryna, ”Search for Cold Fusion in Some Me-D Systems at High Pressures of Gaseous Deuterium,” J. Less-Common Metals 158, 55 -  (1990)

Bass, R. 1996; R. Bass, R. Neal, S. Gleeson and H. Fox, ”Electro-Nuclear Transmutation: Low-Energy Nuclear Reactions in an Electrolytic Cell,” J. New Energy 1-3, 81 - 87 (1996.

Baym, G. 1971; G. Baym, H.A. Bethe and C.J. Pethick, ”Neutron Star Matter,” Nuclear Physics, A175, 225-27l (1971).*

Beddingfield, D.H. 1991; D.H. Beddingfield, F.E. Cecil, C.S. Galovich, H. Liu and S. Asher, ”Characterization of Charged Particles Bursts from Deuterium Loaded Thin Titanium Foils,” Proc. ICCF2 pp. 99 - 103 (1991).*

Bernardini, M. 2000; M. Bernardini, C. Manduchi, G. Mengoli and G. Zannoni, ”Anomalous Effects induced by D₂O Electrolysis at Titanium,” Proc. ICCF8 pp. 39 - 45 (2000).

Biberian, J.-P. 1995; J.-P. Biberian, ,”Excess Heat Measurement in AlLaO₃ Doped with Deuterium,”  Proc. ICCF5 pp. 49 - 56 (1995).

Birnbaum, H.K. 1972; H.K. Birnbaum and C.A. Wert, ”Diffusion of Hydrogen in Metals,” Ber. Bunsenges. Physk. Chem.  76, 806 - 816 (1972).

Bittner, M. 1991; M. Bittner, A. Meister, D. Seeliger, R. Schwierz and P. Wuestner, ”Observation of D-D Fusion Neutrons during Degassing of Deuterium Loaded Palladium,” Proc. ICCF2) pp. 181 - 185 (1991).

Blatt, J.M. 1952: J.M. Blatt and V.F. Weisskopf, Theoretical Nuclear Physics, Chapter II, John-Wiley & Sons, New York, 1952.

Bockris, J.O'M. 1991; J.O'M. Bockris, D. Hodko and Z. Minevski, ”The Mechanism of Deuterium Evolution on Palladium: Relation to Heat Bursts provoked by Fluxing Deuterium across the Interface,” Proc. ICCF2 pp. 337 - 348 (1991).

Bockris, J.O'M. 1992; J.O'M. Bockris, C-C. Chien, D. Hodko and Z. Minevski, ”Tritium and Helium Production in Palladium Electrodes and the Fugacity of Deuterium Therein,” Proc. ICCF3, p. 231 (1992).

Bockris, J.O'M. 1995; J.O'M. Bockris and Z. Minevski, ”Two Zones of ”Impurities,” Observed after Prolonged Electrolysis of Deuterium on Palladium,” Infinite Energy 5 & 6, 67 (1995-96).

Bockris, J.O'M. 1996a; J.O'M. Bockris, R.T. Bush, G.H. Lin and R.A. Monti, ”Do Nuclear Reactions Take Place Under Chemical Stimulation?” J. New Energy 1-1, 5 - 8 (1996.

Bockris, J.O'M. 1996b; J.O'M. Bockris, ”The Complex Conditions Needed to Obtain Nuclear Heat from D-Pd Systems,” J. New Energy 1-3, 210 - 218 (1996.

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Bohr A. 1975; A. Bohr and B.R. Mottelson,  Nuclear Structure II, Benjamin, New York, 1975.

Botta, E. 1992]; E. Botta, T. Bressani, D. Calvo, A. Feliciello, P. Giannotti, C. Lamberti, M. Agnello, F. Iazzi, B. Minetti and A. Zecchina, ”Measurement of 2.5 MeV Neutrons Emission from a Ti/D and Pd/D Systems,” Il Nuovo Cimento 105A, 1662 (1992).

Botta, E. 1996; E. Botta, T. Bressani, C. Fanara and F. Iazzi, ”Measurement of ⁴He Production from D₂ Gas-Loaded Pd Sample,” Proc. ICCF6, p. 29 - 35 (1996).

Botta, E. 1999; E. Botta, T. Bressani, D. Calvo, C. Fanara and F. Iazzi, ”On the Neutron Emission from the Ti/D System,” Il Nuovo Cimento 112A, 607 (1999).

Bressani, T. 1991a; T. Bressani, D. Calvo, A. Feliciello, C. Lamberti, F. Iazzi, B. Minetti, R. Cherubini, A.M.I. Haque and R.A. Ricci, ”Observation of 2.5 MeV Neutrons Emitted from a Titanium-Deuterium Systems,” Il Nuovo Cimento  104A, 1413 (1991).

Bressani, T. 1991b; T. Bressani, D. Calvo, A. Feliciello, C. Lamberti, F. Iazzi, B. Minetti, R. Cherubini, A.M.I. Haque and R.A. Ricci, ”A Study of the Neutron Emission from Ti Loaded with D in Gas Phase by Means of a Time-of -Flight Spectrometer,” Proc. ICCF2 pp. 105 - 111 (1991).

Bressani, T. 1996; T. Bressani, ”Nuclear Products in Cold Fusion Experiments, Comments and Remarks After ICCF6,” Proc. ICCF6 pp. 703 - 709 (1996).

Bush, B.F. 1991; B.F. Bush, J.J. Lagowski, M.H. Miles and G.S. Ostrom, ”Helium Production During the Electrolysis of D₂O in Cold Fusion,” J. Electroanal. Chem.,  309, 271 (1991).

Bush, B.F. 1996; B.F. Bush and J.J. Lagowski, ”Nuclear Products Associated with the Pons and Fleischmann Effect: Helium Commensurate to Heat Generation, Calorimetry and Radiation,” Proc. ICCF6 pp. 622 - 626 (1996).*

Bush, R.T. 1992; R.T. Bush, ”A Light Water Excess Heat Reaction Suggests that 'Cold Fusion' May Be 'Alkali-Hydrogen Fusion' ,” Fusion Technol.  22, 301 (1992).

Bush, R.T. 1993; R.T. Bush and D.R. Eagleton, ”Calorimetric Studies for Several Light Water Electrolyte Cells with Nickel Fibrex Cathodes and Electrolytes with Alkali Salts of Potassium, Rubidium and Cesium,” Proc. ICCF4 2, 13 (1993)

Bush, R.T. 1994a; R.T. Bush and D.R. Eagleton ”Evidence for Electrolytically Induced Transmutation and Radioactivity Correlated with Excess Heat in Electrolytic Cells with Light Water Rubidium Salt Electrolytes,” Trans. Fusion Technol.  26, 344 - 354 (1994).

Bush, R.T. 1994b; R.T. Bush and D.R. Eagleton, ”Calorimetric Studies for Several Light Water Electrolyte Cells with Nickel Fibrex Cathodes and Electrolytes with Alkali Salts of Potassium, Rubidium and Cesium,” Proc. ICCF4 2, 13 (1993).

Bush, R.T. 1996; R.T. Bush, ”Electrolytically Stimulated Cold Nuclear Synthesis of Strontium from Rubidium,” J. New Energy 1-1, 28 - 38  (1995).

Bush, R.T. 1998; R.T. Bush and J.J. Lagowski, ”Methods of Generating Excess Heat with the Pons and Fleischmann Effect: Rigorous and Cost Effective Calorimetry, Nuclear Products analysis of the Cathode and Helium Analysis,” Proc. ICCF7 pp. 38 - 42 (1998).*

Cain, B.L. 1998; B.L. Cain, A.B. Cheney, J. M. Rigsbee, R.W. Cain, L.S. McMillian, ”Thermal Power Produced using Thin-Film Palladium Cathodes in a Concentrated Lithium Salt Electrolyte,” Proc. ICCF7 pp. 43 - 47 (1998).

Campari, E.G. 2000; E.G. Campari, S. Focardi, V. Gabbani, V. Montalbano, F. Piantelli, E. Porcu, E. Tosti and S. Veronesi, ”Ni-H System,” Proc. ICCF8 pp. 69 - 74 (2000).

Carpenter, J.M. 1989; J.M. Carpenter, ”Cold fusion: what's going on ?” Nature  338, 711 (1989).

Case, L.C. 1998; L.C. Case, ”Catalytic Fusion of Deuterium into Helium-4,” Proc. ICCF7 pp. 48 - 50 (1998).

Case, L.C. 2002; L.C. Case, ”There is a Fleischmann-Pons Effect. The Process is Electrolytic, but the Effect is Catalytic,” Abstract of ICCF9 p. 6 (2002).

Caso, C. 1998; C. Caso et al., ”Review of Particle Physics,” Eur. Phys. J.  C3, 1 (1998).

Castano, C.H. 2002; C.H. Castano, A.G. Lipson, S.O. Kim and G.H. Miley, ”Calorimetric Measurements during Pd-Ni Thin Film Cathodes Electrolysis in Li₂SO₄/H₂O Solution,” Abstract of ICCF9 p. 8 (2002).

Cedzynska, K. 1991; K. Cedzynska, S.C. Barrowes, H.E. Knight and F.W. Will, ”Tritium Analysis with an Open System Analytical Procedure,” Fusion Technol.  20, 108 (1991).

Celani, F. 1991; F. Celani, A. Spallone, L. Libaratori, F. Groce, A. Storelli, S. Fortunati, M. Tului and N. Sparviari, ”Search for Neutron Emission from Deuterided High-Temperature Superconductors in a Very Low Background Environment,” Proc. ICCF2 pp. 113 - 121 (1991).

Celani, F. 1992; F. Celani, A. Spallone, L. Libaratori, F. Groce, A. Storelli, S. Fortunati, M. Tului and N. Sparviari, ”Search for Enhancement of Neutron Emission from Neutron-Irradiated, Deuterated High -Temperature Superconductors in a Very Low Background Environment,” Fusion Technol.  22, 181 (1992).

Celani, F. 1996a; F. Celani, A. Spallone, P. Tripodi, A. Petrocchi, D. Di Giacchino, M. Boutet, P. Marini, V. Di Stefano, M. Diocianiuti and W. Collis, ”Reproducible D/Pd Ratio > 1 and Excess Heat Correlation by 1-μs-Pulse, High-Current Electrolysis,” Fusion Technol.  29, 398 (1996).

Celani, F. 1996b; F. Celani, A. Spallone, P. Tripodi, D. Di Gioacchino, P. Marini, V. Di Stefano, A. Mancini and S. Pace, ”New Kinds of Electrolytic Regimes and Geometrical Configurations to Obtain Anomalous Results in Pd (M)-D Systems,” Proc. ICCF6 pp. 93 - 104 (1996).

Celani, F. 1998; F. Celani, M. Achilli, A. Battaglia, C. Cattaneo, P.G. Sona, A. Mancini, ”Preliminary Results with ”Cincinnati Group Cell,” on Thorium ”Transmutation,” under 50 Hz AC Excitation,” Proc. ICCF7 pp. 56 - 67 (1998).

Celani, F. 2000; F. Celani, A. Spallone, P. Marini, V. di Stefano, M. Nakamura, A. Mancini, S. Pace, P. Tripodi, K. Di Gioacchino, R. Petraroli, P. Quercia, E. Righi and G. Trenta, ”High Hydrogen Loading into Thin Palladium Wires through Precipitate of Alkaline-Earth Carbonate on the Surface of Cathode: Evidence of New Phases in the Pd-H System and Unexpected Problems due to Bacteria Contamination in the Heavy Water,” Proc. ICCF8 pp. 181 - 190 (2000).

Celani, F. 2003;F. Celani, A. Spallone, P. Marini, V. di Stefano, M. Nakamura, A. Mancini, G. D'Agostaro, E. Righi, G. Trenta, P. Quercia, C. Catena, V. Andreassi, F. Fontana, D. Garbelli, L. Gamberale, D. Azzarone, E. Celia, F. Falcioni, M. Marchesini and E. Novaro, ”Unexpected Detection of New Elements in Electrolytic Experiments with Deuterated Ethyl-Alcohol, Pd Wire, Sr and Hg Salt,” Proc. JCF4 pp. 17 - 21 (2003).

Cellucci, F. 1996; F. Celluci, P.L. Cignini, G. Gigli, D. Gozzi, M. Tomellini, E. Cisbani, S. Frullani, F. Garibaldi, M. Jodice and G.M. Urciuoli, ”X-ray, Heat Excess and ⁴He in the Electrochemical Confinement of Deuterium in Palladium,” Proc. ICCF6 pp. 3 - 11 (1996).

Cerofolini, G.F. 1991; G.F. Cerofolini, R. Dierckx, A. Foglio Para and G. Ottaviani, ”Binuclear Atoms as Fusion Precursors in a Hot Cloud,” Proc. ICCF2 pp. 193 - 197 (1991).

Cerofolini, G.F. 1993; G.F. Cerofolini, G. Boara, S. Agosteo and A. Para, ”Giant Neutron Trapping by a Molecular Species Produced during the Reaction of D⁺ with H⁻ in a Condensed Phase,” Fusion Technol.  23, 465 (1993).

Chernov, I.P. 1998; I.P. Chernov, N.N. Nikitenkov, L.N. Puchkareva and Yu. R. Kolobov, ”Change of Isotopic Composition of Metals at Deuterium Charge,” Proc. ICCF7 pp. 441 - 446 (1998),

Chicea, D. 2000; D. Chicea and D. Stoicescu, ”Experimental Evidence of Nuclear Reactions in Deuterated Titanium Samples under Non-Equilibrium Conditions Induced by Temperature Variation,” Proc. ICCF8 pp. 247 - 252 (2000).

Chicea, D. 2001; D. Chicea and D. Lupus, ”On Low Intensity Neutron Emission from TiD_x Samples under Non-Equilibrium Conditions,” Fusion Technol.  39, 108 (2001).

Chicea, D. 2002; D. Chicea, ”On New Elements on Cathode Surface after Hydrogen Isotopes Absorption,” Abstract of ICCF9 p. 13 (2002).

Chien, C-C. 1992; C-C. Chien, D. Hodko, Z. Minevski and J. O'M. Bockris, ”On the Electrode Producing Massive Quantities of Tritium and Helium,” J. Electroanal. Chem., 338, 189 (1992).

Clarke, W.B. 2001a; W.B. Clarke, ”Search for ³He and ⁴He in Arata-Style Palladium Cathodes I: A Negative Result,” Fusion Science and Technology, 40, 147 (2001).

Clarke, W.B. 2001b; W.B. Clarke, B.M. Oliver, M.C.H. McKubre, F.L. Tanzella, and P. Tripodi, ”Search for ³He and ⁴He in Arata-Style Palladium Cathodes II: Evidence for Tritium Production,” Fusion Science and Technology, 40, 152 (2001).

Clarke, W.B. 2003a; W.B. Clarke, ”On the Production of ⁴He in D₂-Loaded Palladium-Carbon Catalyst I" Fusion Science and Technology, 43, 122 - 127 (2003).

Clarke, W.B. 2003b; W.B. Clarke, S.J. Bos and B.M. Oliver, ”On the Production of ⁴He in D₂-Loaded Palladium-Carbon Catalyst II" Fusion Science and Technology, 43, 250 - 255 (2003).

Claytor, T.N. 1991; T.N. Claytor, D.G. Tuggle and H.O. Menlove, ”Tritium Generation and Neutron Measurements in Pd-Si under High Deuterium Gas Pressure,” Proc. ICCF2 pp. 395 - 408 (1991).

Claytor, T.N. 1993; T.N. Claytor, D.G. Tuggle and S.F. Taylor, ”Evolution of Tritium from Deuterided Palladium Subject to High Electrical Currents,” Proc. ICCF3 pp. 217 - 229 (1993).*

Claytor, T.N. 1995; T.N. Claytor, D.D. Jackson and D.G. Tuggle, ”Tritium Production from a Low Voltage Deuterium Discharge on Palladium and Other Metals,” J. New Energy 1-1, 111 - 118  (1995).

Claytor, T.N. 1998; T.N. Claytor, M.J. Schwab, D.J. Thoma, D.F. Teter an D.G. Tuggle, ”Tritium Production from Palladium Alloys,” Proc. ICCF7, pp. 88 - 93 (1998).*

Cravens, D. 1995; D. Cravens, ”Flowing Electrolyte Calorimetry,” Proc. ICCF5 pp. 79 - 86 (1995).

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Dash, J. 1994; J. Dash, G. Noble and D. Diman, ”Surface Morphology and Microcomposition of Palladium Cathodes after Electrolysis in Acidified Light and Heavy Water Correlation with Excess Heat,” Trans. Fusion Technol.  26, 299 - 306 (1994).

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Dash, J. 2003b; J. Dash, I. Savvatimova, S. Frantz, E. Weis and H. Kozima, ”Effects of Glow Discharge with Hydrogen Isotope Plasmas on Radioactivity of Uranium,” (to be submitted).

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Savvatimova, I.B. 1996b; I.B. Savvatimova and S.D. Senchukov, ”Transmutation Phenomena in the Palladium Cathode after Ion Irradiation at the Glow Discharge,” Proc. ICCF6 pp. 575 - 579 (1996).

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Srinivasan, M. 1991a; M. Srinivasan, A. Shyam, T.C Kaushik, R.K. Rout, L.V. Kurkarni, M.S. Krishnan, S.K. Malhotra, V.G. Nagvenkar and P.K. Iyengar, ”Observation of Tritium in Gas/Plasma Loaded Titanium Samples,” Proc. Int. Conf. Anomalous Nuclear Effects in Deuterium/Solid Systems (Oct. 22 - 23, 1990, Utah, USA), AIP Conf. Proc.  228, 514 (1991).

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C. Papers Published by the Author and His Collaborators (including papers cited above)

 

 Kozima, H. 1990a; H. Kozima, ”On a Mechanism of the Electrochemically Induced Nuclear Fusion,” Rep. Fac. Science, Shizuoka Univ.  24, 19 (1990).

Kozima, H. 1990b; H. Kozima, K. Hasegawa, H. Suganuma, K. Sekido, M. Fujii, M. Yasuda and T. Onojima, ”On a Mechanism of the Electrochemically Induced Nuclear Fusion II,” Rep. Fac. Science, Shizuoka Univ.  24, 23 (1990).

Kozima, H. 1990c; H. Kozima, S. Oe, K. Hasagawa, H. Suganuma, M. Fujii, T. Onojima, K. Sekido and M. Yasuda, ”Experimental Investigation of the Electrochemically Induced Nuclear Fusion,” Rep. Fac. Science, Shizuoka Univ.  24, 29 (1990).

Kozima, H. 1994a; H. Kozima, ”Trapped Neutron Catalyzed Fusion of Deuterons and Protons in Inhomogeneous Solids,” Trans. Fusion Technol.  26 508 - 515 (1994).

Kozima, H. 1994b; H. Kozima, ”Neutron Moessbauer Effect and Cold Fusion,” Nuovo Cimento 107A, 1781 (1994).

Kozima, H. 1994c; H. Kozima and S. Watanabe, ”t-d and d-d Collision Probability in the Trapped Neutron Catalyzed Model of the Cold Fusion,” Proc. of Int. Symp. ,”Cold Fusion and Advanced Energy Sources,” (May 24-26, 1994, Minsk, Belarus) (in Russian) p. 299.

Kozima, H. 1995a; H. Kozima and S. Watanabe, ”Nuclear Processes in Trapped Neutron Catalyzed Model for Cold Fusion,” Cold Fusion 10, 2 (1995); and Proc. ICCF5 pp. 347 - 354 (1995).

Kozima, H. 1995b; H. Kozima, ”On the Cold Fusion Phenomenon in a Ni-H System,” Cold Fusion 8, 5 (1995).

Kozima, H. 1995c; H. Kozima, ”On Otto Reifenschweiler's Experiment 'Reduced Radioactivity of Tritium in Small Titanium Particles’,” Cold Fusion 12, 12 (1995).

Kozima, H. 1995d; H. Kozima, ”Unified Interpretation of Cold Fusion Phenomenon in TNCF Model,” Cold Fusion 13, 3 (1995); Proc. 2nd Sympos. of NHE Basic Research Group,(July 11 - 12, 1995, Tokyo, JAPAN) (in Japanese) p. 178 (1995).

Kozima, H. 1996a; H. Kozima, K. Hiroe, M. Nomura and M. Ohta, ”Analysis of the Electrolytic Cold Fusion Experiments on TNCF Model,” Proc. ICCF6 pp. 327 - 331 (1996). And Cold Fusion 20, 12 (1996).

Kozima, H. 1996b; H. Kozima, ”On the Existence of the Trapped Thermal Neutron in Cold Fusion Materials,” Proc. ICCF6 pp. 332 - 336 (1996) and also Cold Fusion 20, 5 (1996).

Kozima, H. 1996c; H. Kozima, M. Ohta, M. Nomura and K. Hiroe, ”Analysis of Nickel-Hydrogen Isotope System on TNCF Model,” Proc. ICCF6 pp. 655 - 659 (1996). And Cold Fusion 20, 21 (1996).

Kozima, H. 1996d; H. Kozima, M. Nomura, K. Hiroe and M. Ohta, ”Nuclear Transmutation in Cold Fusion Experiments,” Proc. ICCF6 pp. 660 - 664 (1996).

Kozima, H. 1996e; H. Kozima, ”Neutron Band, Neutron Cooper Pair and Neutron Life Time in Solid,” Proc. 3rd Russian Conf. Cold Fusion and Nuclear Transmutation (RCCFNT3) (Oct. 2 - 6, 1995, Sochi, Russia) p. 224 (1996); Cold Fusion 16, 4 (1996).

Kozima, H. 1996f; H. Kozima, ”On the Absence of Photon with 6.25 MeV and Neutron with 14.1 MeV in CF Experiments,” Cold Fusion 15, 12 (1996).

Kozima, H. 1996g, H. Kozima, ”Neutron Burst in Vanadium-Deuterium System - Another Evidence of Cold Fusion Phenomenon Catalyzed by Low Energy Neutron,” Cold Fusion 15, 15 (1996).

Kozima, H. 1996h; H. Kozima, ”Elemental Transmutation in Biological and Chemical Systems,” Cold Fusion 16, 30 (1996).

Kozima, H. 1996i; H. Kozima, ”Excess Heat and Helium Generation in Cold Fusion Experiments,” Cold Fusion 17, 4 (1996).

Kozima, H. 1996j; H. Kozima, ”Analysis of Patterson Power Cell by TNCF Model,” Cold Fusion 17, 8 (1996).

Kozima, H. 1996k; H. Kozima, ”Excess Energy Data in a Pd/D System Examined,” Cold Fusion 17, 12 (1996).

Kozima, H. 1996l; H. Kozima, M. Ohta, M. Nomura and K. Hiroe, ”Another Evidence of Nuclear Transmutation in Cold Fusion Experiment,” Cold Fusion 18, 12 (1996).

Kozima, H. 1996m; H. Kozima, ”The Behavior of Neutrons in Crystals,” Cold Fusion 18, 17 (1996).

Kozima, H. 1996n; H. Kozima, ”An Analysis of Experimental Data in Cold Fusion Phenomenon on TNCF Model,” Proc. 3rd Symp. NHE Project (July 3 - 4, 1996, Tokyo), 17 (1996); Cold Fusion 18, 30 (1996).

Kozima, H. 1996o; H. Kozima, M. Nomura, K. Hiroe and M. Ohta, ”An Analysis of Tritium and Neutron Generation in a Pd + LiOD/D₂O System,” Cold Fusion 19, 4 (1996).

Kozima, H. 1996p; H. Kozima, ”Analysis of Thermal Neutron Capture by TGS Crystal at Phase Transition Region,” Cold Fusion 19, 9 (1996).

Kozima, H. 1996q; H. Kozima, S. Watanabe, K. Hiroe, M. Nomura and M. Ohta, ”Analysis of Excess Heat and Helium Generation in Pd-black Cathode by D₂O + LiOH Electrolysis,” Cold Fusion 19, 12 (1996).

Kozima, H. 1996r; H. Kozima, ”Tritium Generation in Mo/D Cathode in Glow Discharge with D₂ Gas,” Cold Fusion 20, 28 (1996).*

Kozima, H. 1996s; H. Kozima, M. Nomura, K. Hiroe and M. Ohta, ”Consistent Explanation of Experimental Data obtained in SRI International and EPRI,” Cold Fusion 20, 45 (1996).

Ohta, M. 1996; M. Ohta, M. Nomura, K. Hiroe and H. Kozima, ”On the Cold Fusion Phenomenon in a Ni-H System (2),” Cold Fusion 20, 25 (1996).

Kozima, H. 1997a; H. Kozima, S. Watanabe, K. Hiroe, M. Nomura, M. Ohta and K. Kaki, ”Analysis of Cold Fusion Experiments Generating Excess Heat, Tritium and Helium,” J. Electroanal. Chem..  425, 173 (1997) and 445, 223 (1998).

Kozima, H. 1997b; H. Kozima, S. Watanabe, K. Hiroe, M. Nomura and M. Ohta, ”Analysis of Cold Fusion Experimental Data which Produced Both Excess Power and Helium,” Cold Fusion 21, 12 (1997).

Kozima, H. 1997c; H. Kozima, ”The TNCF Model: Its Fundamentals,” Cold Fusion 21, 19 (1997).

Kozima, H. 1997d; H. Kozima, M. Ohta and K. Kaki, ”TNCF Model Explanation of Carbon Production in D₂ Gas Discharge,” Cold Fusion 21, 48 (1997).

Kozima, H. 1997e; H. Kozima, M. Nomura, K. Hiroe and M. Ohta, ”Nuclear Transmutations in Electrolysis with Porous Ni Cathode and H₂O + K₂CO₃ Electrolyte,” Cold Fusion 21, 58 (1997).

Kozima, H. 1997f; H. Kozima, ”The TNCF Model - A Phenomenological Model for the Cold Fusion Phenomenon,” Cold Fusion 23, 18 (1997) and J. New Energy 2-2, 43 (1997).

Kozima, H. 1997g; H. Kozima, K. Yoshimoto, M. Ohta and K. Kaki, ”TNCF Analysis of Tritium and Excess Heat Generations in Pd/D/Li System,” Cold Fusion 23, 24 (1997).

Kozima, H. 1997h; H. Kozima, ”Nuclear Transmutation in Cold Fusion,” Cold Fusion 23, 54 (1997) and also Symposium on the Nuclear Transmutation in Solids (June 20, 1997, Iwate Univ., Morioka, Japan) p.82 (1997).

Kozima, H. 1997i; H. Kozima, M. Ohta and K. Kaki, ”TNCF Analysis of Excess Heat, Tritium and Helium-4 Generation in Pd/D/Li System,” Cold Fusion 24, 51 (1997).

Kozima, H. 1997j; H. Kozima, M. Fujii, M. Ohta and K. Kaki, ”Jones' Neutron Data Explained Using the TNCF Model - A Short Note,” Cold Fusion 24, 60 (1997)

Kozima, H. 1998a; H. Kozima, Discovery of the Cold Fusion Phenomenon - Evolution of the, Solid State-Nuclear Physics and the Energy Crisis in 21st Century, Ohtake Shuppan KK., Tokyo, Japan, 1998.

Kozima, H. 1998b; H. Kozima, K. Kaki and M. Ohta, ”Anomalous Phenomenon in Solids Described by the TNCF Model,” Fusion Technol.  33, 52 (1998).

Kozima, H. 1998c; H. Kozima, ”Neutron Band in Solids,” J. Phys. Soc. Japan 67, 3310 (1998). And also Elemental Energy (Cold Fusion) 28, 30 (1998).

Kozima, H. 1998d; H. Kozima, ”The TNCF Model for the Cold Fusion Phenomenon,” Proc. ICCF7 pp. 192 - 196 (1998). And also Cold Fusion 26, 4 (1998).

Kozima, H. 1998e; H. Kozima, ”Cold Fusion Phenomenon and the Prospects of Solid State-Nuclear Physics,” Cold Fusion 25, 4 (1998).

Kozima, H. 1998f; H. Kozima, H. Kudoh and K. Yoshimoto, ”Nuclear Transmutation by Fission in Cold Fusion Experiment Analyzed by TNCF Model,” Cold Fusion 25, 34 (1998).

Kozima, H. 1998g; H. Kozima, K. Arai and M. Fujii, ”Excess Heat, Tritium and Neutron Measurements by Iwamura et al. Analyzed on TNCF Model,” Elemental Energy (Cold Fusion) 27, 16 (1998).

Kozima, H. 1998h; H. Kozima, K. Yoshimoto, H. Kudoh and K. Kaki, ”Nuclear Transmutation in Ni Cathode observed by Miley et al. analyzed on TNCF Model,” Elemental Energy (Cold Fusion) 27, 42 (1998).

Kozima, H. 1998i; H. Kozima, M. Fujii and K. Arai, ”Tritium and Helium Measurements by Bockris et al. Analyzed on TNCF Model,” Elemental Energy (Cold Fusion) 27, 47 (1998).

Kozima, H. 1998j; H. Kozima, K. Yoshimoto and H. Kudoh, ”Data of Excess Heat and NT obtained by Dash et al. Analyzed on TNCF Model,” Elemental Energy (Cold Fusion) 28, 23 (1998).

Kozima, H. 1999a; H. Kozima, K. Arai, M. Fujii, H. Kudoh, K. Yoshimoto and K. Kaki, ”Nuclear Reactions in Surface Layers of Deuterium-Loaded Solids,” Fusion Technol.  36, 337 (1999).

Kozima, H. 1999b; H. Kozima, M. Fujii, M. Ohta, K. Arai, H. Kudoh and K. Kaki, ”Analysis of Energy Spectrum of Neutrons Measured in Cold Fusion Experiments on the TNCF Model,” Il Nuovo Cimento 112A, 1431 (1999).

Kozima, H. 2000a; H. Kozima, ”Neutron Drop; Condensation of Neutrons in Metal Hydrides and Deuterides,” Fusion Technol.  37, 253 (2000).

Kozima, H. 2000b; H. Kozima, K. Yoshimoto and K. Arai, ”First Reliable Tritium Data by Packham et al. Analyzed by TNCF Model,” Intern. J. Hydrogen Energy 25, 505-507 (2000).

Kozima, H. 2000c, H. Kozima, K. Arai and K. Yoshimoto, ”Tritium and ⁴He data by Chien et al. confirmed the Cold Fusion Phenomenon,” Intern. J. Hydrogen Energy 25, 509-511 (2000).

Kozima, H. 2000d; H. Kozima and K. Arai, ” Localized Nuclear Transmutation Observed by Bockris and Minevski Revealed a Characteristic of CF Phenomenon,” Intern. J. Hydrogen Energy 25, 513-516 (2000).

Kozima, H. 2000e; H. Kozima and K. Arai, ”Local Coherence, Condensation and Nuclear Reaction of Neutrons at Crystal Boundary of Metal Hydrides and Deuterides,” Intern. J. Hydrogen Energy 25, 845-851 (2000).

Kozima, H. 2000f; H. Kozima, ”Cold Fusion Phenomenon and Physics of Neutrons in Solids,” Proc. ICCF8 pp. 449 - 454 (2000).

Kozima, H. 2000g; H. Kozima, M. Ohta, K. Arai, M. Fujii, H. Kudoh and K. Yoshimoto, ”Nuclear Transmutation in solids Explained by TNCF Model,” Proc. ICCF8 pp. 455 - 460 (2000).

Kozima, H. 2000h; H. Kozima, ”TNCF Model - A Phenomenological Approach,” Proc. ICCF8 pp. 461 - 466 (2000).

Kozima, H. 2000i; H. Kozima, ”Thermal Neutrons and Hydrogen Isotopes in Solids Responsible to the Cold Fusion Phenomenon,” Proc. 7th Russian Conference on Cold Nuclear Transmutation of Chemical Elements (Sochi, Sept. 27 - Oct. 2, 1999) p. 210 (2000), Moscow.

Kozima, H. 2000j; H. Kozima, ”Electroanalytical Chemistry in Cold Fusion Phenomenon,” Recent Res. Devel. Electroanal. Chem.  2, 35 - 46 (2000), Transworld Research Network, Trivandrum, India.

Kozima, H. 2000k; H. Kozima, ”TNCF Model - A Possible Explanation of Cold Fusion Phenomenon,” J. New Energy 5-1, 68 - 80 (2000) .

Kozima, H. 2001a; H. Kozima, M. Ohta, M. Fujii, K. Arai and H. Kudoh, ”Possible Explanation of ⁴He Production in Pd/D₂ System by TNCF Model,” Fusion Technol., 40, 86 (2001).

Kozima, H. 2001b; H. Kozima, J. Warner and G. Goddard, ”Cold Fusion Phenomenon and Atomic Processes in Transition -Metal Hydrides and Deuterides,” J. New Energy, 6-2, 126 -141 (2001).

Kozima, H. 2002; H. Kozima, ”Cold Fusion Phenomenon and its Application to Energy Production and Nuclear Waste Remediation,” Proc. 11th Int. Conf. Emerging Nucl. Energy Systems (Sept. 29 - Oct. 4, 2002, Albuquerque, NM, USA), pp. 237 - 246 (2002).

Dash, J. 2002; J. Dash, I. Savvatimova, G. Goddard, S. Frantz, E. Weis and H. Kozima, ”Effects of Hydrogen Isotope on Radioactivity of Uranium,” Proc. 11th Intern. Conf. Emerging Nuclear Energy Systems (September 29 - Oct. 4, 2002, Albuquerque, NM, USA) p.122.

Kozima, H. 2003a; H. Kozima, ”Neutron Drops and Production of Larger Mass-Number Nuclides in Cold Fusion Phenomenon (CFP),” Proc. JCF4 (Oct.17- 18, 2002, Morioka, Japan) pp. 68 - 73 (2003).

Kozima, H. 2003b; H. Kozima, ”New Neutron State in Transition-Metal Hydrides and Cold Fusion Phenomenon,” Trans. American Nucl. Society (Proc. ANS Annual Meeting 2003) (June 1 - 5, 2003, San Diego, USA) (to be published).

Kozima, H. 2003c, H. Kozima, ”Excited States of Nucleons in a Nucleus and Cold Fusion Phenomenon in Metal Hydrides and Deuterides,” Proc. ICCF9, pp. 186 – 191 (2002).

Kozima, H. 2003d, H. Kozima, ”An Explanation of Data Sets obtained by McKubre et al. (Excess Heat), Clarke (Null Results of ⁴He, ³He) and Clarke et al. (Tritium) with 'Arata Cell',” Proc. ICCF9 , pp. 182 – 185 (2002).

Kozima, H. 2003e, H. Kozima, J. Warner, C. Salas Cano and J. Dash, ”Consistent Explanation of Topography Change and Nuclear Transmutation in Surface Layers of Cathodes in Electrolytic Cold Fusion Experiments,” Proc. ICCF9 , pp. 178 – 181 (2002).

Kozima, H. 2003f, H. Kozima, J. Warner, C. Salas Cano and J. Dash, ”TNCF Model Explanation of Cold Fusion Phenomenon in Surface Layers of Cathodes in Electrolytic Experiments,” J. New Energy 7-1, 64-78 (2003).

Kozima, H. 2003g; H. Kozima, ”Anomalous Nuclear Reactions and Atomic Processes in Transition-Metal Hydrides and Deuterides,” J. New Energy 7-2, (2003) (to be published).

Dash, J. 2003b; J. Dash, I. Savvatimova, S. Frantz, E. Weis and H. Kozima, ”Effects of Glow Discharge with Hydrogen Isotope Plasmas on Radioactivity of Uranium,” (to be submitted).

Kozima, H. 2004a; H. Kozima, ”Quantum Physics of Cold Fusion Phenomenon,” Developments in Quantum Physics, pp.167-196, ed. V. Krasnoholovets, Nova Science Publishers, Inc., New York, 2004.

Kozima, H. 2004b; H. Kozima, ”CF-Matter and Cold Fusion Phenomenon,” Proc. ICCF10 (August 24 – 29, 2003, Cambridge, MA, USA),  (to be published).

Kozima, H. 2005a; H. Kozima, ”Cold Fusion Phenomenon,” Rep. Fac. Science, Shizuoka University, 39, (2005) (to be published).

Kozima, H. 2005b; H. Kozima, ”Cold Fusion Phenomenon and Solid State-Nuclear Physics,” Proc. ICCF11 (Oct.31 – Nov.5, 2004, Marseille, France) (to be published).