References
- M. FLEISCHMANN and S. PONS, “Electrochemically Induced Nuclear Fusion of Deuterium,” J. Electroanal. Chem., 261, 301 (1989); see also M. FLEISCHMANN and S. PONS, Erratum, J. Electroanal. Chem., 263, 187 (1989).
- A. A. OGLOBIN and Y. E. PENIONZHKEVICH, “Very Neutron Rich Very Light Nuclei,” Treatise on Heavy-Ion Science, Vol. 8, D. A. BROMLEY, Ed., Plenum Press, New York (1989).
- J. BARDEEN, L. N. COOPER, and J. R. SCHRIEFFER, “Theory of Superconductivity,” Phys. Rev., 108, 1175 (1975).
- J. C. FISHER, “Polyneutrons as Agents for Cold Nuclear Reactions,” Fusion Technol., 22, 511 (1992).
- M. H. MILES, B. F. BUSH, and K. B. JOHNSON, “Anomalous Effects in Deuterated Systems,” NAWCWPNS TP 8302, Naval Air Warfare Weapons Division (Sep. 1996).
- F. G. WILL, K. CEDZYNSKA, and D. C. LINTON, “Tritium Generation in Palladium Cathodes with High Deuterium Loading,” Trans. Fusion Technol., 26, 209 (1994).
- G. H. MILEY, G. NARNE, M. J. WILLIAMS, J. A. PATTERSON, J. NIX, D. CRAVENS, and H. HORA, “Quantitative Observation of Transmutation Products Occurring in Thin-Film Coated Microspheres During Electrolysis,” Progress in New Hydrogen Energy, Vol. 2, p. 629, M. OKAMOTO, Ed. (1997); see also G. H. MILEY and J. A. PATTERSON, “Nuclear Transmutations in Thin-Film Nickel Coatings Undergoing Electrolysis,” J. New Energy, 1, 1 (1996).
- T. MIZUNO et al., “Isotopic Distribution for the Elements Evolved in Palladium Cathode After Electrolysis in D2O Solution,” Proc. 6th Int. Conf. Cold Fusion, ICCF-6, October 13–18, 1996, Hokkaido, Japan, p. 665.
- Data from G. H. MILEY et al., replotted from Ref. 7.
- E. SEGRÈ, Nuclei and Particles, 2nd ed., p. 243, W. A. Benjamin, Inc., Reading, Massachusetts (1977).
- E. SEGRÈ, Nuclei and Particles, 2nd ed., p. 468, W. A. Benjamin, Inc., Reading, Massachusetts.