Low energy nuclear reactions are possible in condensed matter because of image forces. They result from induced charges at the surface of metals or very polarizable media. The height and width of the Coulomb barrier i...Low energy nuclear reactions are possible in condensed matter because of image forces. They result from induced charges at the surface of metals or very polarizable media. The height and width of the Coulomb barrier in free space can thus be reduced. Nuclear fusion requires also the formation of a compound nucleus in one of its excited states, but two deuterons yield an α particle that has 2 excited states. They are respectively accessible at high or low energies. Since the reduction of the Coulomb barrier depends on the local curvature of the interface, cold fusion becomes autocatalytic, but heat production is controllable. Even microbes, plants and animals can produce transmutations. They are also due to image forces. This solves a basic problem in nuclear physics and there are possible applications: facilitated synthesis of superheavy elements and development of a new type of energy sources. They are moderate, but safe.展开更多
The interaction of the charged particles in the new Unitary Quantum theory isconsidered. It is shown that the distance of approachment of deuterons to each other verystrongly depends on the phase of the wave function ...The interaction of the charged particles in the new Unitary Quantum theory isconsidered. It is shown that the distance of approachment of deuterons to each other verystrongly depends on the phase of the wave function and not only upon the energy. This thesis isnot discussed in the conventional quantum theory. It can easily explain the experiments on thecold nuclear fusion.展开更多
The energy generation processes are analyzed in terms of Schrodinger equation,theformalism of which may account for both the cold nuclear fussion phenomena and the anomalousexcessive energy occurrences of a mysterious...The energy generation processes are analyzed in terms of Schrodinger equation,theformalism of which may account for both the cold nuclear fussion phenomena and the anomalousexcessive energy occurrences of a mysterious origin observed in experiments.展开更多
In this report, the author describes and compares two innovative processes for producing thermal energy based on cavitation and nuclear fusion reactions in the indoor environment. Experiments conducted in the laborato...In this report, the author describes and compares two innovative processes for producing thermal energy based on cavitation and nuclear fusion reactions in the indoor environment. Experiments conducted in the laboratory IHS (Intensive Heating System) of IE "Revinov N. M." indicate that the process of lasso-vortex cavitation, which generates by means of an electric arc obtained HV-EI, gas-liquid plasma state in the EHH-CTC (electro-hydraulic heater with cavitation thermal camera) is not inferior and sometimes even superior in heat transfer to NF-AC (nuclear fusion reactions in ambient conditions).展开更多
Existing explanations for several major phenomena in physics may need to be reconsidered in light of the description of a natural force termed KELEA (kinetic energy limiting electrostatic attraction). Three examples a...Existing explanations for several major phenomena in physics may need to be reconsidered in light of the description of a natural force termed KELEA (kinetic energy limiting electrostatic attraction). Three examples are selected for discussion in this paper: i) The proposed wave-particle duality of electrons;ii) cold fusion;and iii) superconductivity. The current interpretations of these enigmatic concepts are incomplete and not fully validated by scientific methods. The observations underlying these processes are seemingly consistent with KELEA acting as a repelling force between opposite electrical charges. Relatively simple experiments can be designed to either confirm or exclude KELEA in these and in various other currently perplexing physical phenomena.展开更多
The possible mechanisms of deuteron-deuteron fusion during electrolytic infusion ofdeuterons into metallic palladium electrode are studied and a rough estimation of the fusionrate is made. The deuteron ions in the pal...The possible mechanisms of deuteron-deuteron fusion during electrolytic infusion ofdeuterons into metallic palladium electrode are studied and a rough estimation of the fusionrate is made. The deuteron ions in the palladium lattice form a strong coupled plasma inwhich there is a strong screening effect induced by the correlation between ions. This effectincreases greatly the nuclear fusion rate. Our calculations, Lowever, show that D-D fusionrate in the equilibrium deuteron system at normal temperature and atmosphere pressure willnever reach the level that can be measured experimentally. The positive results of D-D fusionin some experiments may be caused by some non-equilibrium processes in which relativelyhigh energy of deuterons and/or high density region are locally produced.展开更多
文摘Low energy nuclear reactions are possible in condensed matter because of image forces. They result from induced charges at the surface of metals or very polarizable media. The height and width of the Coulomb barrier in free space can thus be reduced. Nuclear fusion requires also the formation of a compound nucleus in one of its excited states, but two deuterons yield an α particle that has 2 excited states. They are respectively accessible at high or low energies. Since the reduction of the Coulomb barrier depends on the local curvature of the interface, cold fusion becomes autocatalytic, but heat production is controllable. Even microbes, plants and animals can produce transmutations. They are also due to image forces. This solves a basic problem in nuclear physics and there are possible applications: facilitated synthesis of superheavy elements and development of a new type of energy sources. They are moderate, but safe.
文摘The interaction of the charged particles in the new Unitary Quantum theory isconsidered. It is shown that the distance of approachment of deuterons to each other verystrongly depends on the phase of the wave function and not only upon the energy. This thesis isnot discussed in the conventional quantum theory. It can easily explain the experiments on thecold nuclear fusion.
文摘The energy generation processes are analyzed in terms of Schrodinger equation,theformalism of which may account for both the cold nuclear fussion phenomena and the anomalousexcessive energy occurrences of a mysterious origin observed in experiments.
文摘In this report, the author describes and compares two innovative processes for producing thermal energy based on cavitation and nuclear fusion reactions in the indoor environment. Experiments conducted in the laboratory IHS (Intensive Heating System) of IE "Revinov N. M." indicate that the process of lasso-vortex cavitation, which generates by means of an electric arc obtained HV-EI, gas-liquid plasma state in the EHH-CTC (electro-hydraulic heater with cavitation thermal camera) is not inferior and sometimes even superior in heat transfer to NF-AC (nuclear fusion reactions in ambient conditions).
文摘Existing explanations for several major phenomena in physics may need to be reconsidered in light of the description of a natural force termed KELEA (kinetic energy limiting electrostatic attraction). Three examples are selected for discussion in this paper: i) The proposed wave-particle duality of electrons;ii) cold fusion;and iii) superconductivity. The current interpretations of these enigmatic concepts are incomplete and not fully validated by scientific methods. The observations underlying these processes are seemingly consistent with KELEA acting as a repelling force between opposite electrical charges. Relatively simple experiments can be designed to either confirm or exclude KELEA in these and in various other currently perplexing physical phenomena.
文摘The possible mechanisms of deuteron-deuteron fusion during electrolytic infusion ofdeuterons into metallic palladium electrode are studied and a rough estimation of the fusionrate is made. The deuteron ions in the palladium lattice form a strong coupled plasma inwhich there is a strong screening effect induced by the correlation between ions. This effectincreases greatly the nuclear fusion rate. Our calculations, Lowever, show that D-D fusionrate in the equilibrium deuteron system at normal temperature and atmosphere pressure willnever reach the level that can be measured experimentally. The positive results of D-D fusionin some experiments may be caused by some non-equilibrium processes in which relativelyhigh energy of deuterons and/or high density region are locally produced.
