Technical References
A through G
Below are selected references (through 1999) that may assist in conducting research on the subject of cold fusion and new energy technologies. This collection, while extensive, is not comprehensive. If you are looking for a specific reference not listed here, contact us. We recommend that you also visit the LENR-CANR website, which contains a wealth of research papers.

Arata, Y. and Y-C. Zhang, "Achievement of Solid-State Plasma Fusion ('Cold Fusion')," Proc. Japan Acad., 71, Ser.B(1995), pp.304-309.

Arata, Y. and Zhang, "Solid State Plasma Fusion ('Cold Fusion')," Vol. 23., January 1997, Special Issue of the Journal of the High Temperature Society of Japan (56 pages).

Benson, T., "A Micro-Fusion Reactor: Nuclear Reactions in the 'The Cold' by Ultrasonic Cavitation, " Infinite Energy, Vol.1, No.1, pp.33-37.

Bockris, J. O'M. and Z. Minevski, "Two Zones of 'Impurities' Observed After Prolonged Electrolysis of Deuterium on Palladium," Infinite Energy, Vol.1, Nos. 5&6, 1996, pp.67-71.

Bockris, J. O'M., C. Chien, D. Hodko, and Z. Minevski, "Tritium and Helium Production in Palladium Electrodes and the Fugacity of Deuterium Therein," Proc. ICCF3, October 21-25, 1992, Nagoya Japan, Frontiers of Cold Fusion, (H. Ikegami, ed), p. 231.

Bockris, J.O'M., R. Sundaresan, Z. Minevski, and D. Letts, "Triggering of Heat and Subsurface Changes in Pd-D Systems," Transactions of Fusion Technology (Proceedings of ICCF4), Vol.26, 4T, Part 2, December 1994, p.267290.

Bush, R. and R. Eagleton, "Evidence for Electrolytically Induced Transmutation and Radioactivity Correlated with Excess Heat in Electrolytic Cells With Light Water Rubidium Salt Electrolytes," Proc. ICCF4, Lahaina, Maui, Dec. 6-9, 1993. EPRI TR-104188-V3 (1994), p. 2.

Bush, R. T. and R. D. Eagleton, Calorimetric Studies for Several Light Water Electrolytic Cells With Nickel Fibrex Cathodes and Electrolytes with Alkali Salts of Potassium, Rubidium, and Cesium," Proc. ICCF4, Lahaina, Maui, Dec. 6-9, 1993. EPRI TR-104188-V2 (1994), p. 13.

Carrell, M., "An Overview of the Correa Invention," Infinite Energy, Vol.2, No.8, pp.10-14.

Carrell, M., "The Correa PAGD™ Reactor: Errata and Supplement," Infinite Energy, Vol.2, No.9, pp.33-36.

Celani, F., A. Spallone, P. Tripodi, A. Nuvoli, A. Petrocchi, D.Di Gioacchino, M. Boutet, P. Marini and V. Di Stefano, "High Power, ps Pulsed Electrolysis for Large Deuterium Loading on Pd Plates," Proc. ICCF4, Lahaina, Maui, Dec. 6-9, 1993. EPRI TR-104188-VI (1994), p. 22. And: Celani, F., A. Spallone, P. Tripodi, and A. Nuvoli, "Measurement of Excess Heat and Tritium During Self-Biased Pulsed Electrolysis of Pd-D20," Proc. ICCF3, October 21 -25, 1992, Nagoya Japan, Frontiers of Cold Fusion, (H. Ikegami, ed), p.93.

Chene, J., and A. M. Brass, "Tritium Production During the Cathode Discharge of Deuterium on Palladium," J. Electroanal. Chem. 280 (1990) 199.

Chien, C-C., D. Hodko, Z. Minevski And J. O'M. Bockris, "On an Electrode Producing Massive Quantities of Tritium and Helium," J. Electroanal. Chem. 33X (1992) 189.

Claytor, T. N., D. G. Tuggle, and S. F. Taylor, "Evolution of Tritium from Deuterided Palladium Subject to High Electrical Currents," Proc. ICCF3, October 21-25, 1992, Nagoya Japan, Frontiers of Cold Fusion, (H. Ikegami, ed. ,p.217.

Claytor, T.N., D.D. Jackson, and D.G. Tuggle, "Tritium Production from a Low-Voltage Deuterium Discharge on Palladium and Other Metals, " Infinite Energy, Vol.2, no.7, 1996, pp.39-42.

Cole, D.C. and H.E. Puthoff, "Extracting energy and heat from the vacuum," Physical Review E, Vol.48, No.2, pp.1562-1565.

Correa, P. and A. Correa, "XS NRG™ Technology" and "Other Applications of the PAGD Technology," Infinite Energy, Vol.2. No.7, pp.1827; the Correa and Correa patents, US #5,416,391; #5,449,989; and #5,502,354, Infinite Energy, Vol.2, No.1, pp.27-38.

Dash, J., G. Noble and D. Diman, "Surface Morphology and Microcomposition of Palladium Cathodes After Electrolysis in Acidified Light and Heavy Water: Correlation with Excess Heat," Transactions of Fusion Technology (Proceedings of ICCF4), Vol.26, 4T, Part 2, December 1994, 299-306.

Dufour, J., J. Foos, and J.P. Millot, "Cold Fusion by Sparking of Hydrogen Isotopes: Energy Balances and Search for Fusion By Products,"Transactions of Fusion Technology (Proceedings of ICCF4), Vol.26, 4T, Part 2, December 1994, pp. 375-379.

Eberlein, C., "Sonoluminescence as Quantum Vacuum Radiation," Physical Review Letters, Vol.76, No.20, 13 May 1996, pp.3842-3845.

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

Fleischmann, M., S. Pons, M. W. Anderson, L. J. Li, and M. Hawkins, "Calorimetry of the Palladium -Deuterium- Heavy Water System," J. Electroanal. Chem. 2X7 (1990) 293.

Fleischmann, M. and S. Pons, "Calorimetry of the PdD20 System: From Simplicity Via Complications to Simplicity," Phys. Lett. A 176 (1993) 118.

Focardi, S., R. Habel, and F. Piantelli, "Anomalous Heat Production in NiH Systems, Il Nuovo Cimento, 107A, January 1994, pp.163-167.

Focardi, S., R. Habel, and F. Piantelli, "Energy Generation and Generator by Means of Anharmonic Stimulated Fusion," Patent, International Publication Number WO 95/20816, Infinite Energy, Vol.1, No.4, pp.24-31.

Griggs, James L., "A Brief Introduction to the Hydrosonic Pump and the Associated 'Excess Energy' Phenomenon," Proc. ICCF4, Lahaina, Maui, Dec. 69, 1993. EPRI TR-104188V 4 (1994), p.43-23.