Advanced search
Publication Cover
Fusion Technology Volume 24, 1993 - Issue 1
Journal homepage
3
Views
1
CrossRef citations to date
0
Altmetric
Technical Notes on Cold Fusion

The Surfdyn Concept: An Attempt to Solve (or Rename) the Puzzles of Cold Nuclear Fusion

Peter GlückInstitute of Isotopic and Molecular Technology P.O. Box 700, 3400 Cluj-Napoca 5, Romania
Pages 122-126 | Published online: 09 May 2017

References

  • S. SZPAK, P. A. MOSSIER-BOSS, and J. J. SMITH, “Reliable Procedure for the Initiation of the Fleischmann-Pons Effect,” Proc. 2nd Annual Conf. Cold Fusion, Como, Italy, June 29–July 4, 1991, p. 87, S.I.F., Bologna (1991).
  • T. BRAUN, “World Flash on Cold Fusion No. 13,” J. Radioanal. Nucl. Chem. Lett., 164, 3, 137 (1992).
  • F. SCARAMUZZI, “Survey of Gas Loading Experiments,” Proc. 2nd Annual Conf. Cold Fusion, Como, Italy, June 29–July 4, 1991, p. 445, S.I.F., Bologna (1991).
  • E. F. MALLOVE, “Protocols for Conducting Light Water Excess Energy Experiments,” Fusion Facts, 3, 8, 15 (1992).
  • R. T. BUSH, “Cold Fusion: The Transmission Resonance Model Fits Data on Excess Heat, Predicts Optimal Trigger Points, and Suggests Nuclear Reaction Scenarios,” Fusion Technol., 19, 313 (1991).
  • D. J. CRAVENS, “Trading Views on What Works/Sometimes,” Fusion Facts, 3, 6 12 (1991).
  • R. L. MILLS and S. P. KNEIZYS, “Excess Heat Production by Electrolysis of an Aqueous Potassium Carbonate Electrolyte and the Implications for Cold Fusion,” Fusion Technol., 20, 65 (1991).
  • T. C. KAUSHIK, A. SHYAM, M. SRINIVASAN, R. K. ROUT, L. V. KULKARNI, M. S. KRISHNAN, S. K. MALHOTRA, and V. B. NAGVENKAR, “Preliminary Report on Direct Measurement of Tritium in Liquid Nitrogen Treated TiDx Chips,” Indian J. Technol., 28, 667 (1990).
  • M. SRINIVASAN, “Nuclear Fusion in an Atomic Lattice: An Update on the International Status of Cold Fusion Research,” Current Sci., 60, 7 417 (1991).
  • P. HANDEL, “Intermittency, Ireproducibility, and the Main Physical Effects in Cold Fusion,” Fusion Technol., 18, 512 (1990).
  • G. H. LIN, R. C. KAINTHLA, N. J. C. PACKHAM, and J.O.M. BOCKRIS, “Electrochemical Fusion, A Mechanism Speculation,” J. Electroanal. Chem., 280, 207 (1990).
  • L. SCHLAPBACH, “Hydrogen and Its Isotopes in and on Metals,” Proc. 2nd Annual Conf. Cold Fusion, Como, Italy, June 29–July 4, 1991, p. 409, S.I.F., Bologna (1991).
  • D. R. ROLISON and W. E. O’GRADY, “Observation of Elemental Anomalies at the Surface of Palladium After Electrochemical Loading of Deuterium or Hydrogen,” Anal. Chem., 63, 17 1697 (1991).
  • A. TAKAHASHI, “Nuclear Products by D20/Pd Electrolysis and Multibody Fusion,” Proc. Int. Symp. Nonlinear Phenomena in Electromagnetic Fields, Nagoya, Japan, January 27–29, 1992; see also Fusion Facts, 3, 9, 19 (1992).
  • C. WHITE, “Chemical Energy from Tap Water,” 21st Century Sci. Technol., 5, 1, 71 (1992).
  • A. BELZNER, V. BISCHLER, S. CROUCH-BAKER, T. M. GüR, G. LUCIER, M. SCHREIBER, and R. A. HUGGINS, “Recent Results on Mixed Conductors Containing Hydrogen or Deuterium,” Solid State Ionics, 40/41, 519 (1990).
  • A. B. KARABUT, Y.A.R. KUCHEROV, and I. B. SAVVATIMOVA, “Cold Fusion Observation at Gas Discharge Device Cathode,” presented at Anniversary Specialist Conf. Nuclear Power Engineering, Obninsk, Russia, May 15-19, 1990.
  • E. STORMS, “Review of Experimental Observations About the Cold Fusion Effect,” Fusion Technol., 20, 571 (1991).
  • R. T. BUSH, “A Light Water Excess Heat Reaction Suggests That ‘Cold Fusion’ is ‘Alkali-Hydrogen Fusion,’” Fusion Technol., 22, 301 (1992).
  • R. K. ROUT, A. SHYAM, M. SRINIVASAN, and A. BANSAL, “Copious Low Energy Emissions from Palladium Loaded with Hydrogen or Deuterium,” Indian J. Technol., 29, 571 (1991).
  • R. D. EAGLETON and R. T. BUSH, “Calorimetric Experiments Supporting the Transmission Resonance Model for Cold Fusion,” Fusion Technol., 20, 239 (1991).
  • M. H. MILES, R. T. BUSH, G. S. OSTROM, and J. J. LAGOWSKI, “Heat and Helium Production in Cold Fusion Experiment,” Proc. 2nd Annual Conf. Cold Fusion, Como, Italy, June 29–July 4, 1991, p. 363, S.I.F., Bologna (1991).
  • F. G. WILL, K. CZEDYNSKA, M.-C. YANG, J. R. PETERSON, H. E. BERGERSON, S. C. BARROWES, W. J. WEST, and D. C. LINTON, “Studies of Electrolytic and Gas Phase Loading of Palladium with Deuterium,” Proc. 2nd Annual Conf. Cold Fusion, Como, Italy, June 29–July 4, 1991, p. 373, S.I.F., Bologna (1991).
  • X. L. JIANG, N. XU, and L. J. HAN, “Point Effect and Nonequilibrium Conditions in Electrolysis Experiments,” Proc. Anomalous Nuclear Effects in Deuterium/Solid Systems, Provo, Utah, October 22–23, 1990, p. 228, American Institute of Physics (1991).
  • T. MATSUMOTO, “Microscopic Observations of Palladium Used for Cold Fusion,” Fusion Technol., 19, 567 (1991).
  • E. YAMAGUCHI and T. NISHIOKA, “Cold Nuclear Fusion Induced by Controlled Out Diffusion of Deuterons in Palladium,” Jpn. J. Appl. Phys., 29, 4, L666 (1990).
  • E. PALIBRODA and P. GLÜCK, “Cold Nuclear Fusion in Thin Foils of Palladium,” J. Radioanal. Nucl. Chem. Lett., 154, 2, 153 (1991).
  • Y. ARATA and Y. C. ZHANG, “Achievement of an Intense Cold Fusion Reaction,” Fusion Technol., 18, 95 (1990).
  • J.O.M. BOCKRIS, D. HODKO, and Z. MINEVSKI, “The Mechanism of Deuterium Evolution on Palladium: Reaction to Heat Bursts Provoked by Fluxing Deuterium Across the Interface,” Proc. 2nd Annual Conf. Cold Fusion, Como, Italy, June 29–July 4, 1991, p. 337, S.I.F., Bologna (1991).
  • B. Y. LIAW, P. L. TAO, P. TURNER, and B. E. LIEBERT, “Elevated Temperature Heat Production Using Molten-Salt Electrochemical Techniques,” Proc. Cold Fusion Symp., 8th World Hydrogen Energy Conf., Honolulu, Hawaii, July 22–27, 1990, p. 49, University of Hawaii (1990).
  • P. GLÜCK, “List of Cold Fusion Patents,” Fusion Facts, 3, 6 (1991); Fusion Facts, 3, 8 (1992); and Fusion Facts, 3, 10 (1992).
  • V. A. TSAREV, “Cold Fusion Studies in the USSR,” Proc. 2nd Annual Conf. Cold Fusion, Como, Italy, June 29–July 4, 1991, p. 319, S.I.F., Bologna (1991).
  • A. G. LIPSON, B. F. LYAKHOV, B. V. DERYAGIN, V. N. KUDRYAVSTEV, Y. U. TOPOROV, V. A. KLYUEV, M. A. KOLOBOV, and D. M. SAKOV, “Reproducible Neutron Emission During the Combined Effects of Cavitation and Electrolysis on the Surface of a Titanium Cathode in Heavy-Water-Based Electrolysis,” Pisma. Zh. Tekh. Fiz., 17, 21, 33 (1991); see also Fusion Facts, 3, 10, 25 (1992).
  • I. F. SILVERA and F. MOSHARY, “Deuterated Palladium at Temperatures from 4.3 to 400 K and Pressures to 105 kbar: Search for Cold Fusion,” Phys. Rev. B, 42, 14 9143 (1990).
  • V. M. GRYAZNOV and N. V. OREKHOVA, Catalysis by Noble Metals: Dynamic Features, Nauka, Moscow (1989).
  • B. V. GOVOROV, V. M. GRYAZNOV, N. B. YEREMIN, A. N. KARAVANOV, N. R. ROSMAN, A. F. TULINOV, and I. V. TYAPKIN, “Study of Neutron Emission from Palladium Alloy Deutendes,” Zh. Fiz. Khim., 64, 539 (1990).
  • G. A. SOMORJAI, “Modern Concepts in Surface Science and Heterogeneous Catalysis,” J. Phys. Chem., 94, 1013 (1990).
  • G. A. SOMORJAI, “Molecular Adsorption and Catalysis: The Surface Chemistry of Transitive Metals,” Magyar Kem. Folyoirat, 98, 1 1 (1992).
  • O. TOKIO, “Is Cold Fusion Possible? A Proposal of the Concept of ‘Surfusion,’” J. Surface Sci. Soc. Jpn., 10, 11, 896 (1989).
  • H. HORA, L. CICCHITELLI, G. H. MILEY, M. RAGHEB, A. SCHARMANN, and W. SCHEID, “Plasma and Surface Tension Model for Explaining the Surface Effect of Tritium Generation at Cold Fusion,” Nuovo Cimento, 12D, 3, 393 (1990).
  • Y. E. KIM, “Surface Reaction Mechanism and Lepton Screening for Cold Fusion with Electrolysis,” Proc. 1st Annual Conf. Cold Fusion, Salt Lake City, Utah, March 28–31, 1990, p. 194, National Cold Fusion Institute (1990).
  • F. NAKANO, “The Cold Fusion Cell That Wouldn’t Turn Off,” 21st Century Sci. Technol., 4, 4 59 (1991); see also C. WHITE, “Interview with Tadahiko Mizuno,” 21st Century Sci. Technol., 4, 4 59 (1991).
  • C. WHITE, “New Cold Fusion Results: More Heat, Tritium and 4He,” 21st Century Sci. Technol., 4, 4 67 (1991).
  • C. D. SCOTT, J. E. MROCHEK, T. C. SCOTT, G. E. MICHAELS, E. NEWMAN, and M. PETEK, “Measurement of Excess Heat and Apparent Coincident Increases in the Neutron and Gamma-Ray Count Rates During the Electrolysis of Heavy Water,” Fusion Technol., 18, 103 (1990).

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.