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(1) M. Fleischmann, S, Pons and M. Hawkins, “Electrochemically induced Nuclear Fusion of Deuterium", J. Electroanal. Chem. 261, 301 (1989).

(1’) M. Fleischmann, "The Experimenters' Regress", Proc. 1C.CF5 (April 9 ‑ 13, Monte ‑Carlo, Monaco), 152 (1995).

(1”) T. Roulette, J. Roulette and S. Pons, "The ICARUS 9 Calorimeter: Summary of Three Year Designing, Testing and Operation of this Device at the IMRA Europe Science Center” Proc, ICCF6 (Oct. 14 ‑ 17, 1996, Hokkaido, Japan) , 85 (1996).

(2) S,E. Jones, E.P. Palmer, J.B. Czirr, D.L. Decker, G.L. Jensen, J.M. Theme and S,E. Tayler, "Observation of Cold Nuclear Fusion in Condensed Matter”, Nature 338, 737 (1989).

(3) M. C. H. McKubre, S. Crouch‑Baker, R. C. Rocha‑Filho, S.I. Smedley, F.L. Tanzella, T.0. Passell and J. Santucci, "Isothermal Flow Calorimetric Investigations of the D/Pd and H/Pd Systems", J. Electroanal. Chem. 368, 55 (1994).

(3’) M. C. H. McKubre, S. Crouch‑Baker and F.L. Tanzella, “Conditions for the Observation of Excess Power in the D/Pd System", Proc. ICC1F5 (April 9 ‑ 13, Monte ‑Carlo, Monaco), 17 (1995).

(3”) P.O. Passell, "Search for Nuclear Products in Heat‑Producing Palladium", Proc. ICCF6 (Oct. 14 ‑ 17, 1996, Hokkaido, Japan), 282 (1996)

(4) E, Storms, "Measurements of Excess Heat from a Pons‑Fleischmann Type Electrolytic Cell using Palladium Sheet”, Fusion Technol., 23, 230 (1993); Frontiers of Cold Fusion (Proc. ICCF3) p.21, ed. H. Ikegami, Universal Academy Press (Tokyo), 1993.

(4’) E. Storms, " Review of Experimental Observations about the Cold Fusion Effect”, Fusion Technol. 20, 433 (1991).

(4”) E. Storms, "A Critical Review of the ‘Cold Fusion’ Effect” A Preprint (Published in August 1995).

(4’’’) E. Storms, "Status of ‘Cold Fusion' ", Proc. ICCF5 (April 9 ‑ 13, 1995, Monte‑Carlo, Monaco), 1 (1995).

(4⁽⁴⁾) E. Storms, "Some Thoughts on the Nature of the Nuclear Active Regions in Palladium", Proc. ICCF6 (Oct. 14 ‑ 17, 1996, Hokkaido, Japan), 105 (1996).

(5) A. Takahashi, T. Iida, F. Maekawa, H. Sugimoto and S. Yoshida, "Windows of' Cold Nuclear Fusion and Pulsed Electrolysis Experiments” Fusion Techno. 19, 380(1991).

(5’) A, Takahashi, T. Iida, T. Takeuchi, A. Mega, S. Yoshida and M. Watanabe, “Neutron Spectra and Controllability by PdD/Electrolysis Cell with Low ‑ High Pulse Operation", Science of Cold Fusion (Proc.ICCF2), Conference Proceedings 33, 93 (1991), CSI, Bologna.

(5") A. Takahashi, T. Iida, T. Takeuchi and A. Mega, "An Excess Heat and Nuclear Products by D₂O/Pd Electrolysis and Multi-body Fusion", Int. Appl. Electromag. in Materials, 3, 221 (1992).

(5’’’) A. Takahashi, A. Mega, T. Takeuchi, H. Miyamaru and T. Iida, "Anomalous Excess Heat by D₂O/Pd Cell under L‑H Mode Electrolysis", Frontiers of Cold Fusion (Proc. ICCF3) p.79, ed. H. Ikegami, Universal Academy Press (Tokyo), 1993.

(6) A. De Ninno, A. Frattolillo, G. Lollobattista, G. Martinio, M. Martone, M. Mori, S. Podda and F. Scaramuzzi, "Evidence of Emission of Neutrons from a Titanium‑Deuterium System”, Europhys. Lett. 9, 221(1989).

(6’) A. De Ninno, F. Scaramuzzi, A. Frattolillo, S. Migliori, F. Lanza, S. Scaglione, P. Zeppa and C. Pontorieri, "The Production of Neutrons and Tritium in Deuterium Gas ‑ Titanium Interaction", The Science of Cold Fusion (Proc. ICCF2), Conference Proceedings 33,129 (1991), SIF, Bologna.

(7) J. Dufour, "Cold Fusion by Sparking in Hydrogen Isotopes", Fusion Technol. 24, 205 (1993).

(7') J. Dufour, J. Foos and J. P. Millot, "From 'Cold Fusion' to Hydrex and Deutex States of Hydrogen" Proc. ICCF6 (Oct. 13‑17, 1996, Hokkaido, Japan) p.482 (1996).

(8) H.O. Menlove, M. M. Fowler, E. Garcia, M. C. Miller, M.A. Paconi, R. R.

Ryan and S. E. Jones, "Measurements of Neutron Emission from Ti and Pd in Pressurized D₂ Gas and D₂O Electrolysis Cells", J. Fusion Energy 9, 495 (1990).

(9) T. N. Claytor, D. G. Tuggle and S~ F. Taylor, "Evolution of Tritium from Deuterided Palladium Subject to High Electrical Currents", Frontiers of Cold Fusion (Proc. ICCF3) p.217, ed. H. Ikegami, Universal Academy Press (Tokyo), 1993.

(9’) S.F. Taylor, T.N. Claytor, D.G. Tuggle and S,E. Jones, "Search for Neutrons from Deuterated. Palladium Subject to High Electric Currents", Proc. ICCF4, (Dec. 6 ‑ 9, 1993, Hawaii, USA) 3, 17, EPRI TR ‑ 104188, 1994.

(9”) D.G. Tuggle, T.N. Claytor and S. F. Taylor, "Tritium Evolution from Various Morphologies of Palladium", Proc. ICCF4, (Dec. 6 ‑ 9, 1993, Hawaii, USA) 1, 7, EPRI TR ‑ 104188, 1994.

(9’’’) T.N. Claytor, "Tritium Production from Palladium and Palladium Alloys", Proc. ICCF6 (Oct. 14 ‑ 17, 1996, Hokkaido, Japan) (to be published).

(10) H. Long, S. Sun, H. Liu, R. Xie, X. Zhang and W. Zhang, “Anomalous Effects in Deuterium/Metal Systems", Frontiers of Cold Fusion (Proc. ICCF3) p.447, ed, H. Ikegami, Universal Academy Press (Tokyo), 1993.

(10') H. Long, R. Xie, S, Sun, H. Liu, J. Gan, B. Chen, X. Zhang and W. Zhang, "The Anomalous Nuclear Effects Inducing by the Dynamic Low Pressure Gas Discharge in a Deuterium/Palladium System”, Frontiers of Cold Fusion (Proc. ICCF3) p.455, ed. H. Ikegami, Universal Academy Press (Tokyo), (1993).

(11) J. Jorne, “Neutron and Gamma‑ray Emission from Palladium Deuteride under Supercritical Conditions", Fusion Technol. 19, 371 (199l).

(12) M. Nakada, T. Kusunoki and M. Okamoto, "Energy of the Neutrons Emitted in Heavy Water Electrolysis” Frontiers of Cold Fusion (Proc.ICCF3) p. 173, ed. H. Ikegami, Universal Academy Press (Tokyo), 1993.

(12’) T. Sato, M. Okamoto, P. Kim, Y. Fujii and O. Aizawa, "Detection of Neutrons in Electrolysis of Heavy Water", Fusion Technol. 19, 357 (1991).

(12”) M. Okamoto, H. Ogawa, Y, Yoshinaga, T. Kusunoki and O. Odawara, "Behavior of Key Elements in Pd for the Solid State Nuclear Phenomena Occurred in Heavy Water Electrolysis” Proc. ICCF4 ( Dec. 6 ‑ 9, 1993, Hawaii, USA) 3, 14 (1994).

(12’’’) H. Ogawa, Y. Oya, T. Ono, M. Aida and M. Okamoto, “Correlation of

Excess Heat and Neutron Emission in Pd‑LiOD Electrolysis", Proc.ICCF6 (Oct. 14 ‑17, 1996, Hokkaido, Japan) (to be published).

(12⁽⁴⁾) H. Ogawa, Y. Oya, O. Aruga, T. Ono, M. Aida and M. Okamoto, "Dynamic Movement of Hydrogen Isotopes in Pulse Mode Electrolysis", Proc.ICCF6 (Oct. 14‑17,1996, Hokkaido, Japan) 443 (1996).

(12⁽⁵⁾) Y. Oya, H. Ogawa, T. Ono, M. Aida and M. Okamoto, "Hydrogen Isotope Effect Induced by Neutron Irradiation in Pd‑LiOD(H) Electrolysis", Proc. ICCF6 (Oct. 14‑17, 1996, Hokkaido, Japan) 370 (1996)

(13) K. Kaliev, A. Baraboshkin, A. Samgin, E. Golikov, A. Shalyapin, V. Andreev and P, Goluburchiy, "Reproducible Nuclear Reactions during Interaction of Deuterium with Oxide Tungsten Bronze", Frontiers of Cold Fusion (Proc. ICCF3) p.241, ed. H. Ikegami, Universal Academy Press (Tokyo), 1993.­

(13') K. Kaliev, "Dubna‑1995", Proc. 3rd Russian Conference on Cold Fusion and Nuclear Transmutation, (Oct. 2 ‑ 6, 1995, Sochi, Russia) (to be published).

(13’’) K. Kaliev and B, Filimonov, "Neutron Bursts and Accompanying Effects in Deuterium Absorption by Structured Film of Na_xWO₃", Proc. 4th Russian Conference on Cold Fusion and Nuclear Transmutation (May. 20 ‑ 25, 1996, Sochi, Russia) (to be published).

(14) Y. Arata and Y‑C. Zhang, “Reproducible ‘Cold’ Fusion Reaction using a Complex Cathode", Fusion Technol. 22, 287 (1992).

(14') Y. Arata and Y‑C. Zhang, "'Cold Fusion' in a Complex Cathode", Frontiers of Cold Fusion (Proc. ICCE3) p. 441, ed. H. Ikegami, Universal Academy Press (Tokyo), 1993.

(14") Y. Arata and Y‑C. Zhang, "Achievement of Solid‑State Plasma Fusion ( "Cold Fusion' )", Proc. Japan Acad. 70B, 106 (I994); "A New Energy Caused by 'Spillover‑Deuterium’", Proc. Japan Acad. 71B, 304 (1995).

(15) A.G. Lipson and D.M. Sakov “Amplification of the Neutron Flux Transmitted through KD₂PO₄ Single Crystal at the Ferroelectric Phase Transition State", Proc. ICCF 5 (April 9 ‑13, Mont-Carlo, Monaco), 571 (1995).

(15') A. G. Lipson, D, M. Sakov, E. 1. Saunin, V. B. Kalinin, M. A. Kolovov, B.V. Deryagin and A.A. Khodyakov, "Cold Nuclear Fusion induced in KD2PO4 Single Crystals by a Ferroelectric Phase Transition" JETP (in Russian) 76, 1070 (1993).

(15’’) A.G. Lipson, D.M. Sakov and E.I. Saunin, "Change in the Intensity  of a Neutron Flux as It Interacts with a K(H_xD_1-x)₂PO₄ Crystal in the Vicinity of T_c" J. Tech. Phys. Lett. (in Russian), 22, 9 (1996) and also V. A. Filimonov "A New Cold Fusion Phenomenon?", Cold Fusion 7, 24 (1995).

(15’’’) A.G. Lipson, D.M. Sakov and E.I. Saunin, "Suppression of Spontaneous Deformation in Triglycine Sulfate Crystal (D_0.6H_0.4) by a Weak Neutron Flux" JETP Lett. 62, 828 (1995).

(15⁽⁴⁾) A.G. Lipson, D.M. Sakov and E.I. Saunin, "Heat Production, Nuclear Ashes and Electrophysical Processes in Heterostructure PdO/Pd/PdO Saturated with Deuterium by Electrochemical Method“ Proc. ICCFNT4 (May 20 ‑ 25, 1996, Sochi, Russia) (to be published); Proc. ICCF6 , 433 (1996).

(16) M. Srinivasan, R.K. Rout, S.C. Misra, M. Lai, A. Shyam, P.S. Rao mid P K. Iyengar, "Observation of High Tritium Levels in Aged Deuterated Tritium Targets as Possible Evidence of Cold Fusion", Fusion Technol, 18, 98 (1990).

(16’) P.K. Iyengar and M. Srinivasan, “Overview of BARC Studies on Cold Fusion" Proc. 1st Annual Conf Cold Fusion (ICCF1) (Oct.22‑23, 1990, Salt Lake City, Utah, USA), p. 62.

(16") R.K. Rout, M. Srinivasan, S. Shyam and V. Chitra, "Detection of High Tritium Activity on the Central Titanium Electrode", Fusion Technol. 19, 391 (1991).

(16’’’) M. Srinivasan, A. Shyam, F.C Kaushik, R.K. Rout, L.V. Kurkarni, M.S. Krishnan, S.K. Malhotra, V.G. Nagvenkar and P.X. 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).

(16⁽⁴⁾) R.K. Rout, A. Shyam, M. Srinivasan, and A.B. Garg, "Reproducible, Anomalous Emissions from Palladium Deuteride/ Hydride" Fusion Technol. 30, 273(1996).

(17) T. Itoh, Y. Iwamura, N. Gotoh and I. Toyoda, "Observation of Nuclear Products under Vacuum Condition from Deuterated Palladium with High Loading Ratio", Proc, ICCF5 (April 9‑13, 1995, Monte‑Carlo, Monaco), 189 (1995).

(17) Y. Iwamura, "Correlation between Behavior of Deuterium in Palladium and Occurrence of Nuclear Reactions Observed by Simultaneous Measurement of Excess Heat and Nuclear Products", Proc. ICCF6 (Oct. 14‑17, 1996, Hokkaido, Japan), 274 (1996)

(18) JR. Morrey, M.R. Caffee, H. Farrar, TV, N.J Hoffman, G.B. Hudson, R.H. Jones, M.D. Kun, J. Lupton, BM Oliver, B.V. Ruiz, J.F. Wacker and A. Van, “Measurement of Helium in Electrolysed Palladium", Fusion Technol. 18, 659 (1990).

(19) 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).

(19’) M.H. Miles, R.A. Hollins, B.F. Bush and J.J. Lagowski, "Correlation of Excess Power and Helium Production During D2O and H2O Electrolysis Using Palladium Cathodes", J. Electroanal. Chem. 346, 99 (1993).

(19’’) M.H. Miles, B.F. Bush and J.J. Lagowski, "Anomalous Effects involving Excess Power, Radiation, and Helium Production during D₂O Electrolysis using Palladium Cathodes", Fusion Technol. 25, 478 (1994).

(20) E. Yamaguchi and T, Nishioka, "Cold Nuclear Fusion Induced by Controlled Out‑Diffusion of Deuterons in Palladium”, Jpn. J. Appl. Phys. 29, L666 (1992).

(20') E. Yamaguchi and T. Nishioka, "Direct Evidence for Nuclear Fusion Reactions” Frontiers of Cold Fusion (Proc. ICCF3) p. 179, ed. H.1kegarni, Universal Academy Press (Tokyo), 1993.

(21) J. Kasagi, K. Ishii, M. Hiraga, and K. Yoshihara, "Observation of High Energy Protons Emitted in the TiD_x + D Reaction at E_d = 150 keV and Anomalous Concentration of 3He", Frontiers of Cold Fusion (Proc. ICCF3) p. 209, ed. H. Ikegami, Universal Academy Press (Tokyo), 1993.

(21') J. Kasagi, T. Ohtsuka, K. Ishii and M, Hiraga, " Energetic Protons and αParticles Emitted in 150 keV Deuteron Bombardment on Deuterated Ti”, J. Phys. Soc. Japan, 64,777(1995).

(21’’) J. Kasagi, "Reaction Rates of the D-D Reaction in Metal at Very Low Energies", Proc. ICCF6 (Oct. 14 ‑17, 1996, Hokkaido, Japan) 259 (1996).

(22) B.Y. Liaw, P‑L Tao and B.E. Liebert, "Helium Analysis of Palladium Electrodes After Molten Salt Electrolysis", Fusion Technol. 23, 92 (1993).

(23) T. Ohmori and M. Enyo, "Excess Heat Produced during Electrolysis of H₂O on Ni, Au, Ag and Sn Electrodes in Alkaline Media", Frontiers of Cold Fusion (Proc. ICCF3) p. 427, ed. H. Ikegami, Universal Academy Press (Tokyo), 1991

(23') T. Ohmori and M. Enyo, "Fe and C Atom Generation in An, Pd‑H₂O Electrolytic System", 第二回新水素エネルギー研究会講演要旨　p.59;　Proc. 2nd Symposium of NHE Basic Res. Group (July 11‑ 12, Tokyo, Japan) (in Japanese).

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(25') U.S. Pat. No.5,372,688, System for Electrolysis of Liquid Electrolyte": and also Report by V. Lapuszynski, "the Patterson Power Cell", Cold Fusion, 7, 1 (1995).

(25") D. Cravens, "Flowing Electrolyte Calorimetry", Proc. ICCF5 (April 9‑13, 1995, Monte‑Carlo, Monaco), 79 (1995),

(25’’’) G,H. Miley, "Design Considerations for Multilayer Thin Film Patterson‑type Microspheres", Proc. ICCF6 (Oct 14 ‑ 17, 1996, Hokkaido, Japan) (to be published)

(25⁽⁴⁾) G.H. Miley, “Quantitative Observation of Massive Transmutation Products Occurring in Multilayer Thin‑Film Coated Microspheres during Electrolysis", Proc.ICCF6 (Oct. 14‑17, 1996, Hokkaido, Japan), p. 629 (1996).

(26) R. L. Mills and S. P. Kneizys, "Excess Heat Production by the Electrolysis of an Aqueous Potassium Carbonate Electrolyte and the Implications for Cold Fusion", Fusion Technol. 20, 65 (199 1).

(26') R. L. Mills, W.R. Good and R.M. Shaubach, "Dihydrino Molecule Identification" Fusion Technol. 25, 103 (1994).

(27) T. Mizuno, M. Enyo, T. Akimoto and K .Azumi, "Anomalous Heat Evolution from SrCeO₃ Type Proton Conductors during Absorption/ Desorption of Deuterium in Alternate Electric Field", Proc. ICCF4 (Dec. 6‑ 9, 1993, Hawaii, USA) 2, 14 (1994), Electric Power Research Institute, Palo Alto, California, USA.

(27) T. Mizuno, "Excess Heat and Reaction Products from Oxide Proton Conductors SrCe_0.9Y_0.08Nb_0.02O_2.97 in Deuterium Gas by Electrolytic Operation" Proc. 2^nd Symposium of NHE Group (1995. 7. 11‑12, ",), p. 49 (in Japanese).

(27") T. Mizuno, T. Ohmori arid M. Enyo, "Changes of Isotope Distribution Deposited on Palladium Induced by Electrochemical Reaction", J. Electroanal. Chem. (to be published).

(28) 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 (Dec. 6‑‑‑9, 1993, Hawaii, USA) 2, 13, EPRI TR‑104188, 1994.

(28’) R. T. Bush mid 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. (Proc. ICCF4) 26, 344 (1994).

(29) T. Ishida, "Study of the Anomalous Nuclear Effects in Solid‑Deuterium Systems", Master Degree Thesis, Tokyo University, February 1992.

(30) S. E. Jones, D. E, Jones, D. S. Shelton arid S. F. Taylor, "Search for Neutron, Gamma and X‑Ray Emission from Pd/LiOD Electrolytic Cells: A Null Results", Trans. Fusion Technol. (Proc. ICCF4) 26, 143 (1994).

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(32) A.A. Yuhimchuk, V.I. Tichonov, S.K. Grishechkin, N.S. Ganchuk, B. Ya. Gujofskii, Yu.I. Platnikov, Yu.A. Soloviev, Yu.A. Habarov, A B. Levkin, "Registration of Neutron Emission in Thermocycle of Vanadium Deuterides", (in Russian) Kholodnyi Yadernyi Sintez, p. 57, ed. R, N. Kuz'min, Sbornik Nauchnykh Trudov (Kariningrad) 1992.

(33) F. Celani, A. Spallone, L. Libaratori, F. Grace, A. Storelli, S. Fortunati, M. Taint 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).

(33’) F. Celani, A. Spallone, P. Tripodi, A. Petrocchi, D. Di Giacchino, P. Marini, V. Di Stefano, M. Diocianiuti and A. Mancini, "Study of Deuterium Behaviour in Palladium and Palladium Alloy Plates, Changing Surface Treatments by μs Pulsed Electrolysis” Proc. ICCF.5 (April 9 ‑ 13, 1995, Monte‑ Carlo, Monaco), 411 (1995).

(33’’) F. Celani, A. Spallone, P. Tripodi, A. Petrocchi, D. Di Giacchino, M. Boatel, 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).

(33`) F. Celani, A. Spallone, P. Tripodi, D. Di Giacchino, S. Pace, P. Marini, V. Di Stefano, M. Diocianiuti and A. Mancini, “High Power μs‑ Pulsed Electrolysis Using Long and Thin Pd Wires in Very Dilute LiOD‑D₂O Solution: Observation of Anomalous Excess Heat”, Proc. ICCF6 (October 14 ‑17, 1996,Hokkaido) p.93 (1996).

(34) B. Stella, M. Corradi, F. Ferrarotto, V. Milone, F. Celani and A. Spallone, "Evidence for Stimulated Emission of Neutrons in Deuterated Palladium", Frontiers of Cold Fusion (Proc. ICCF3) p, 437, ed, H. Ikegami, Universal Academy Press (Tokyo), 1993.­

(35) A. B. Karabut, Y. R. Kucherov, I.B. Savvatimova, "Possible Nuclear Reactions Mechanisms at Glow Discharge in Deuterium", Frontiers of 'Cold Fusion (Proc. ICCF‑3) p. 165, ed. H. Ikegami, Universal Academy Press (Tokyo), 1993.

(35') I.B. Savvatimova, Y, R. Kucherov and A. B. Karabut, "Cathode Material Change after Deuterium Glow Discharge Experiment", Trans. Fusion Technol. (Proc. ICC1,4) 26, 389 (1994).

(35") I.B. Savvatimova, Y. R. Kucherov and A. B. Karabut, “Impurities in Cathode Materials and Possible Nuclear Reaction Mechanism in a Glow Discharge", Proc. 3rd Russian Conf. Cold Fusion and Nuclear Transmutation (Oct. 2 ‑ 6, 1995. Sochi, Russia) (to be published),

(35’’’) I.B. Savvatimova, A. B. Karabut, "Change of Elemental and Isotope Contents in Cathode after Ion Bombardment in Glow Discharge", Proc. RCCFNT3 (Oct. 27, 1995, Sochi, Russia), 20 (1996) (in Russian) and private communication.

(36) R. Notoya, "Cold Fusion by Electrolysis in a Light Water ‑ Potassium Carbonate Solution with a Nickel Electrode", Fusion Technol. 24, 202 (1993),

(36) R. Notoya, "Nuclear Products of Cold Fusion Caused by Electrolysis in Alkali Metallic Ions Solutions" Proc. ICCF5  (April 9 ‑ 13, 1995, Monte-Carlo, Monaco), 531 (1995).

(36") R. Notoya, "Nuclear Reactions of Alkaline Metals Induced by Pt, Ni‑H Electrodes" Proc. 2nd Symposium of NHE Group (July 11‑12, 1995, Tokyo, Japan) (in Japanese), p.99,

(36’’’) R. Notoya, T. Ohnishi and Y. Noya, "Nuclear Reaction Caused by Electro­lysis in Light and Heavy Water Solution" Proc. ICCF6  (October 14 ‑ 17, 1996, Hokkaido, Japan)  675, (1996).

(37) J. C. Jackson, in "Cold Fusion Results still Unexplained", Nature 339, 345 (1989)

(38) N. F Mott and R. W, Gurney, Electronic, Processes in Ionic Crystals, Oxford, London, 1940.

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

(39') H. Kozima, K. Hasegawa, H. Suganuma, S. Oe, K. Sekido, M. Fujii, M. Yasuda and T. Onojima, "On a Mechanism of the Electrochemically Induced Nuclear Fusion” Rep. Fac. Science, Shizuoka Univ. 24,23(1990).

(39’’) 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),

(39’’’) H. Kozima, "How the Cold Fusion Occurs?” Rep. Fac. Science, Shizuoka Univ. 28, 31 (1994).

(40) H. Kozima, "Trapped Neutron Catalyzed Fusion of Deuterons and Protons in Inhomogeneous Solids", Proc. ICCF4 (Dec. 6 ‑ 9,1993, Hawaii, USA), 4,5‑1, Electric Power Research Institute, Palo Alto, California (1994) ~ and Trans. of Fusion Technol. (Proc. ICCF4) 26, 508 (1994).

(40') H. Kozima, K. Kaki, T. Yoneyama, S. Watanabe and M. Koike, "Theoretical Verification of the Trapped Neutron Catalyzed Model of Deuteron Fusion in Pd/D and Ti/D Systems" Rep, Fac. Science, Shizuoka Univ. 31, 1 (1997).

(41’’) 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.

(41’’’) H. Kozima and S. Watanabe, "Neutron Breeding Process in the Trapped Neutron Catalyzed Model of the Cold Fusion", Fusion Technol. (submitted in Sept. 1995).

(42) H. Kozima, 'Tritium Production in the Trapped Neutron Catalyzed Model of Cold Fusion", Fusion Technol. (submitted)

(42') H. Kozima, "Tritium Generation in Mo/D Cathode in Glow Discharge with D₂ Gas", Cold Fusion 20, 28 (1996).

(43) H. Kozima, "The Behavior of Neutrons in Crystals", Cold Fusion 18, 17 (1996).

(43') H. Kozima, “On the Existence of the Trapped Thermal Neutron in Cold Fusion Materials", Proc. ICCF6 (Oct. 14 ‑ 17, Hokkaido, Japan) p.332 (1996); Cold Fusion 20, 5 (1996).

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

(45) H. Kozima, "Neutron Moessbauer Effect and Cold Fusion", Nuovo Cimento 107A, 1781 (1994).

(46) H. Kozima, "On the Cold Fusion Phenomenon in a Ni‑H System", Cold Fusion 8, 5 (1995).

(46') 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).

(46’’) H. Kozima, M. Ohta, M. Nomura and K. Hiroe, "Analysis of Nickel‑Hydrogen Isotope System on TNCF Model,” Proc. ICCF6 (Oct. 14 ‑ 17, 1996, Hokkaido, Japan) p.655; Cold Fusion 20,21 (1996).

(47) H. Kozima and S. Watanabe, “Nuclear Processes in Trapped Neutron Catalyzed Model for Cold Fusion", Cold Fusion 10, 2 (1995) and Proc. ICCF5 (April 9 13, 1995, Monte‑Carlo, Monaco), 347 (1995).

(47’) H. Kozima, K. Hiroe, M, Nomura and M. Ohta, "Analysis of the Electrolytic Cold Fusion Experiment on TNCF Model”, Proc. ICCF6 (Oct. 14‑17, 1996, Hokkaido, Japan) p.327; Cold Fusion 20, 12 (1996).

(48) H. Kozima, “Unified Interpretation of Cold Fusion Phenomenon in TNCF Model”, Cold Fusion 13, 3 (1995); 第二回NHE基礎研究グループ報告集p.178.

(48’) H. Kozima, "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).

(48") H. Kozima, "Cold Fusion Phenomenon on TNCF Model”, Proc. RCCFNT4 (May 20‑25, 1995, Sochi, Russia) (to be published); Cold Fusion 20, 31 (1996).

(48’’’) H. Kozima, K. Kaki and M. Ohta, "The Physics of the Cold Fusion Phenomenon" Cold Fusion (to be published).

(49) 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).

(49') H. Kozima, "Excess Energy Data in a Pd/D System Examined", Cold Fusion 17, 12 (1996)

(50) H. Kozima, “Neutron Burst in Vanadium‑Deuterium System—Another Evidence of Cold Fusion Phenomenon Catalyzed by Low Energy Neutron", Cold Fusion 15, 15 (1996).

(50') H. Kozima, “Excess Heat and Helium Generation in CF Experiments", Cold Fusion 17, 4 (1996).

(50’’) H. Kozima, K. Hiroe, M. Nomura and M. Ohta, "Analysis of the First Cold Fusion Experiment on TNCF Model”, Cold Fusion 21, 6 (1997).

(50’’’) H. Kozima, M. Nomura, K. Hiroe and M. Ohta, "Analysis of Tritium and Neutron Generation in Pd+LiOD/D₂O System", Cold Fusion 19, 4 (1 996)

(50⁽⁴⁾) H. Kozima, S. Watanabe, K. Hiroe, M. Nomura and M, Ohta,  "Analysis of      Cold Fusion Experiments Generating Excess Heat, Tritium and Helium", J. Electroanal. Chem. 425, 173 (1997).

(51) H. Kozima, K. Hiroe, M. Nomura and M. Ohta, “On the Elemental Transmutation in Biological and Chemical Systems", Cold Fusion 16, 30 (1996).

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

(51") H. Kozima, M. Nomura, K. Hiroe and M. Ohta, "Nuclear Transmutation in Cold Fusion Experiments", Proc. ICCF6 (Oct, 14 ‑17,1996, Hokkaido, Japan) p.660; Cold Fusion 20, 16 (1996); J New Energy, 1‑4, 21 (1996).

(51’’’) 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).

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

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

(52") H. Kozima, "Neutron Bands and Neutron Cooper Pairs in Solids", Cold Fusion 16, 4 (1996),

(52’’’) H. Kozima, "Analysis of Thermal Neutron Capture by TGS Crystal at Phase Transition Region", Cold Fusion 19, 9 (1996).

(53) O. Reifenschweiler, "Reduced Radioactivity of Tritium in Small Titanium

Particle", Phys. Lett. A184, 149 (1994).

(53') O Reifenschweiler, "Some Experiments on the Decrease of the Radioactivity of Tritium Sorbed by Titanium", Proc. ICCF5 (April 9‑13, 1995, Monte‑Carlo, Monaco) 163 (1095); Cold Fusion 10, 7 (1995); Fusion Technol. 30 261 (1996).

(53’’) H. Kozima, "On the 'Reduced Radioactivity of Tritium Sorbed by Titanium', Phys. Letters A (submitted)

(54) G.I. Cerofolini and A.P. Para, "Can Binuclear Atoms solve the Cold Fusion Puzzle?”, Fusion Technol, 23 (1993) 98.

(54') 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).

(55) H. Arenhoevel and M. Sanzone, "Photodisintegration of the Deuteron", Few Body System, Supplement 3, 1 (1991).

(56) V. A. Chechin, V. A. Tsarev, M. Rabinowitz and Y. E. Kim, "Critical Review of Theoretical Models for Anomalous Effects in Deuterated Metals", Inter. Journal of Theor. Physics, 33, 617 (1994).

(57) A. Tazima. K. Ishii and H. Ikagami, "Time Correlated Neutron Detection from Deuterium Loaded Palladium", The Science of Cold Fusion (Proc. ICCF2), p. 157, ed. T. Bressani et al., SIF, Bologna, 1991.

(58) 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", Frontiers of Cold Fusion (Proc. ICCF3) p. 231, H. Ikegami, Universal Academy Press (Tokyo), 1993..

(59) V A. Romodanov, V 1. Savin and Ya,B. Skuratnik, "The Demands to System Plasma‑Target for Obtaining a Balance Energy from Nuclear Reactions in Condensed Media", Proc. RCCFNT2 (Sept. 1994, Sochi, Russia), 99 (1995).

(59') 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. 21, 231 (1995),

(60) T,G. Will, K. Cedzynska and D.C. Linton, “Tritium Generation in Palladium Cathodes with High Deuterium Loading", Trans. Fusion Technol. (Proc. ICCF4) 26, 207 (1994).

(61) M. Kushi, The Philosopher's Stone, One Peaceful World Press, 1994.

(62) V.I. Vysotskii, "Experimental Discovery of the Phenomenon of Low Energy Nuclear Transmutation of Isotopes (Mn55 →Fe57) in Growing Biological Vulture” Proc. ICCF6, (Oct. 14‑17, 1996, Hokkaido, Japan) 680 (1996).

(63) J. Schwinger, "Cold Fusion Theory, A Brief History of Mine", Trans. Fusion Technol. (Proc. ICCF4) 26. xiii (1994).

(63') J. Schwinger, " Nuclear Energy in an Atomic Lattice”, Z. Physics D15, 221 (1990).

(63’’) J. Schwinger, "Nuclear Energy in an Atomic Lattice‑Causal Order”, Prog. Theor. Phys. 85, 711 (1991).

(64) P. Hagelstein, "Update on Neutron Transfer Reactions", Proc. ICCF5 (April 9‑13, 1995, Monte Carlo, Monaco), 327 (1995).

(64') P. Hagelstein, "Coherent and Semi-coherent Neutron Transfer Reactions III: Phonon Frequency Shifts”,  Fusion Technol, 23, 353 (1993).

(65) Yu.N. Bazhutov, “Influence of Spin and Parity Conservation Laws in Erzion Catalyzed Nuclear Fusion", Proc. RCCFNT4 (May 20‑25, 1996, Sochi, Russia) (to be published)

(66) D. Gozzi, P.L. Cignini, M. Tomellini, S. Frullani, F. Galibaldi, F. Ghio, M. Jodice and G.M. Urciuoli, "Nuclear and Thermal Effects During Electrolytic Reduction of Deuterium at Palladium Cathode", Fusion Technol. 21, 60 (1992).

(66') D. Gozzi, P.L. Cignini, R. Caputo, B. Balducci, G. Gigli, E. Cisbani, S. Frullani, F. Galibaldi, M. Jodice, and G.M. Urciuoli, "Experiments with Global Detection of Cold Fusion Byproducts", Frontiers of Cold Fusion (Proc. ICCF3) p. 155, ed. H. Ikegami, Universal Academy Press (Tokyo), 1993.

(66") D. Gozzi, P.L. Cignini, R. Caputo, M. Tomellini, B. Balducci, G. Gigli, E. Cisbani, S. Frullani, F. Galibaldi, M. Jodice, and G.M. Urciuoli, "Calorimetric and Nuclear Byproduct Measurements in Electrochemical Confinement of Deuterium in Palladium", J Electroanal. Chem. 380, 91 (1995).

(66’’’) F. Cellucci, P.L. Cignini, G. Gigli, D. Gozzi, F. Cisbani, S. Frullani, F. Galibaldi, M. Jodice, and G.M. Urciuoli, "X‑ray, Heat Excess and ⁴He in the Electrochemical Confinement of Deuterium in Palladium", Proc. ICCF6 (Oct, 14 -17, 1996, Hokkaido, Japan), p.31 (1996).

(67) H. Kozima, "ICCF6 Report (1)", Cold Fusion 20,28 (1996).

(67’) H. Kozima, “ICCF6 Report (2)”, Cold Fusion 20, 50 (1996).

(67’’) H. Kozima, “ICCF6 Report (3)", Cold Fusion 21, 27 (1990)

(68) H. Kozima, K. Hiroe, M. Nomura and M. Ohta, "Explanation of Experimental Data of X‑ray, Heat Excess and ⁴He in PdD/Li System", Cold Fusion (to be published).

(68') 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).

(68") H. Kozima, K. Hiroe, M. Nomura and M. Ohta, "Analysis of Fine Experimental Data of Excess Heat Generation in PdD_x/Li System", Cold Fusion 21, 44 (1997).

(68’’’) H. Kozima, M. Ohta, M. Nomura and K. Hiroe, "Thin Pd Wire Cathode is Effective for Excess Heat Generation", Cold Fusion (to be published).

(69) 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).

(70) R.A. Oriani, "An Investigation of Anomalous Thermal Power Generation from a Proton-Conducting Oxide", Fusion Technol. 30, 2 81 (19 96).

(70') RA. Oriani, “A Confirmation of Anomalous Thermal Power Generation from a Proton‑Conducting Oxide", Proc. ICCF6 (Oct. 14 – 17, 1996, Hokkaido, Japan) 557 (1996)