Abbreviations
\iccfslc}[1]; Proc. 1st Annual Conf. Cold Fusion (Proc ICCF1)
(1990, Salt Lake City, Utah, USA), {#1} (1990).
\iccf1[1]; Proc. 1st Annual Conf. Cold Fusion (Proc ICCF1)
(1990, Salt Lake City, Utah, USA), {#1} (1990).
\iccfcomo[1]; Science of Cold Fusion (Proc. ICCF2) (1991,
Como, Italy), {#1} (1991).
\iccfnagoya}[1]; Frontiers of Cold Fusion (Proc. ICCF3) (1992,
Nagoya, Japan), {#1} (1993).
\iccfmaui}[2]; Proc. 4th Int. Conf. Cold Fusion (ICCF4) (1993,
Hawaii, USA) {{\bf #1}}, {#2} (1994).
\iccftran}[1]; Trans. Fusion Technol. (Proc. ICCF4) (1993,
Hawaii, USA) {{\bf 26}}, {#1} (1994).
\iccfmona}[1]; Proc. 5th Int. Conf. Cold Fusion (ICCF5) (1995,
Monte Carlo, Monaco), {#1} (1995).
\iccftoya}[1]; Progress in New Hydrogen Energy (Proc. ICCF6) (1996,
Hokkaido, Japan), {#1} (1996).
\iccfvanc}[1]; The Best Ever! (Proc. ICCF7) (1998, Vancouver,
Canada), {#1} (1998).
\iccfvanca}[1]; Abstracts of ICCF7 (1998, Vancouver, Canada),
{#1} (1998).
\iccflrci}[1]; Conference Proceedings 70 (Proc. ICCF8, 2000, Lerici,
Italy), {#1} (2001). Italian Physical Society.
\iccfpekin}[1]; Condensed Matter Nuclear Science (Proc. ICCF9)
(May 19-24, 2002, Peking, China), p.{#1} (2002).
\eecf}[3]; Elemental Energy (Cold Fusion) {#1}, {#2} (19{#3}).
List of Papers
27) H. Kozima, "New Neutron State in
Transition-Metal Hydrides and Cold Fusion Phenomenon" Trans. American
Nuclear Soc., Vol.88 (2003 ANS Annual Meeting, June 1-5, 2003, San Diego,
USA), p. 615 - 617 (2003).
26) J. Dash, I. Savvatimova, S. Frantz, E. Weis and
H. Kozima, "Effects of Glow Discharge with Hydrogen Isotope Plasmas on
Radioactivity of Uranium" Proc. ICCF9, p. 186 - 191 (2003).
25) 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, p. 178 - 181 (2003).
24) H. Kozima, "An Explanation of Data Sets
obtained by McKubre et al. (Excess Heat), Clarke (Null Results of 4He and 3He)
and Clarke et al. (Tritium) with 'Arata Cell'" Proc. ICCF9, p. 182
- 185 (2003)
23) H. Kozima, gExcited States of Nucleons in a
Nucleus and Cold Fusion Phenomenon in Transition-Metal Hydrides and Deuterides
h Proc. ICCF9 , p.186 – 191 (2003).
22) H. Kozima, gNeutron
Drops and Production of the Larger Mass-Number Nuclides in CFPh Proc. JCF4, p.68
– 73 (2003).
21) J. Dash, I. Savvatimova, S. Frantz, E. Weis and H. Kozima, gEffects of Glow Discharge with Hydrogen Isotope Plasmas on Radioactivityh Proc. ICENES2002. p. 122 (2002)
20) H. Kozima, gThe Cold Fusion Phenomenon and Its Application to Energy Production and Nuclear Waste Remediationh Proc. ICENES2002. p. 237 (2002)
19) H. Kozima gAn Explanation of Data Sets obtained
by McKubre et al. (Excess Heat), Clarke (Null Results of 4He, 3He)
and Clarke et al. (Tritium) with
Arata Cellh Proc. ICCF9
18) H.
Kozima, gExcited States
of Nucleons in a Nucleus and Cold Fusion Phenomenon in Transition-metal Hydrides
and Deuteridesh Proc. ICCF9
17) H. Kozima, J. Warner*, C. Salas Cano and J. Dash gConsistent Explanation of Topography Change and Nuclear Transmutation in Surface Layers of Cathodes in Electrolytic Cold Fusion Experimenth Proc. ICCF9
16) H. Kozima, "TNCF model - A Phenomenological Approach" \iccflrci{461} Proc. ICCF8
15) H. Kozima, M. Ohta, K. Arai, M. Fujii, H. Kudoh and K. Yoshimoto, "Nuclear Transmutation in Solids explained by TNCF Model" \iccflrci{455} Proc. ICCF8
14) H. Kozima, "The Cold Fusion Phenomenon and Physics of Neutrons in Solids", \iccflrci{449} Proc. ICCF8
13) H. Kozima, "Thermal Neutrons and Hydrogen Isotopes in Solids Responsible to the Cold Fusion Phenomenon", {\it Proc. 7th Russian Conference on Cold Nuclear Transmutation of Chemical Elements} (Sochi, Sept. 27 - Oct. 2, 1999) 210 (2000), Moscow.
12) H. Kozima, "The TNCF Model for the Cold Fusion Phenomenon", \iccfvanc{192} Proc. ICCF7
11) H. Kozima, M. Ohta, K. Yoshimoto, K. Arai, M. Fujii, H. Kudoh and K. Kaki, "The Physical Processes in the Cold Fusion Phenomenon" Proc. 5th Russian Conf. Cold Fusion and Nuclear Transmutation (Proc. RCCFNT5) (Sept. 29 - Oct. 3, 1997, Sochi, Russia), 188 (1998).
10) H. Kozima, "Nuclear Transmutation in Cold Fusion", Proc. Symposium on the Nuclear Transmutation in Solids (June 20, 1997, Iwate Univ., Morioka, Japan) p.82 (1997);
9) H. Kozima, "Cold Fusion Phenomenon on TNCF Model", Proc. 4th Russian Conference on Cold Fusion and Nuclear Transmutation (RCCFNT 4) (May 20 - 25, 1995, Sochi, Russia) 173 (1996)
8) H. Kozima, M. Nomura, K. Hiroe and M. Ohta, "Nuclear Transmutation in Cold Fusion Experiments", Proc. ICCF6 \iccftoya{660}
7) H. Kozima, M. Ohta, K. Nomura and K. Hiroe, "Analysis of Nickel-Hydrogen Isotope System on TNCF Model", Proc. ICCF6 \iccftoya{655}
6) H. Kozima, "On the Existence of the Trapped Thermal Neutron in Cold Fusion Materials", Proc. ICCF6 \iccftoya{332}
5) H. Kozima, K. Hiroe, M. Nomura and M. Ohta, "Analysis of the Electrolytic Cold Fusion Experiments on TNCF Model", Proc. ICCF6 \iccftoya{327}
4) 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)
3) H. Kozima and S. Watanabe, "Nuclear Processes in Trapped Neutron Catalyzed Model for Cold Fusion", Proc. ICCF5 (April 9 - 13, 1995, Monte-Carlo, Monaco), 347 (1995)
2) 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.
1) H. Kozima, gTrapped Neutron Catalyzed Fusion of Deuterons and Protons in Inhomogeneous Solidsh Transactions of Fusion Technology, 26, No.4T, (Proceedings of ICCF4) 508 (1994)