Papers by Keyword: Nuclear Transmutation

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Authors: Xin Lu, Hong Yu Wang, Jian Tian, Li Hong Jin, Bing Jun Shen, Xin Le Zhao
Abstract: In order to explore the condensed phase whether may promote abnormal heating phenomenon and nuclear reactions occur, as well as how to construct and characterization of condensed phase structure filled with deuterium and the use of exogenous trigger transient change. Some deuterium atoms were charged into metal palladium lattice and reached a certain ratio in a D-Pd gas-solid system under the pressure of PD26J heat energy were released in 8 hours, when loading ratio of deuterium x was 0.12, current 8A, pressure 9×104Pa. Improvement of experiment, that excess heat power 41W and 79.58MJ heat energy, which was corresponding to 1.8×104eV for each palladium atom were released in 83 hours and 17 minutes, when current 7.25A, pressure 9×104Pa. An energy dispersive spectrometer (EDS) revealed that new surface topographical features with concentrations of unexpected elements Ag were detected, which implied that the excess heat might come from a nuclear transmutation reaction.
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Authors: Jian Tian, Xin Lu, Li Hong Jin, Bing Jun Shen, Li Zhi Zhu, Xin Le Zhao, Hong Yu Wang, Xu Hao Zheng, Hong Ye Zhang
Abstract: Some hydrogen atoms were being charged into metal palladium lattice and reached a certain ratio in a H-Pd gas-loading system under the pressure of PH2<1atm. The relationship between loading ratio, pressure and excess heat were studied at different reaction conditions. In one of the experiments the palladium wire was broken with a huge excess heat. The calculation results showed that about 2.2×104 Joules excess energy were released in that abnormal process, which was corresponding to 2.5×102eV for each palladium atom. Analysis on the surface of the melted broken section of palladium wire sample before and after the abnormal process with a scanning electron microscopy (SEM) and an energy dispersive spectrometer (EDS) revealed that new surface topographical features with concentrations of unexpected elements (Ag and Ca) were detected, which implied that the excess heat might come from a nuclear transmutation reaction
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Authors: D. Cirillo, Emilio del Giudice, Roberto Germano, S. Sivasubrammanian, Yogendra N. Srivastava, V. Tontodonato, G. Vitiello, Allan Widom
Abstract: In the conceptual framework of Quantum ElectroDynamics (QED) it has been proventhat liquid water is made up of two phases : 1) a coherent phase where the electron cloud of watermolecules oscillates in phase with a trapped electromagnetic field within extended regions, calledCoherence Domains (CD); 2) a non coherent phase formed by a gas-like ensemble of molecules fillingthe interstices among the CD's. The constituentmolecules of the coherent phase oscillate between theirindividual ground state and an excited state where one electron is so loosely bound to be consideredquasi-free. Therefore the coherent phase contains a plasma of quasi-free electrons. In the bulk water,as in the case of superfluid liquid Helium, each molecule crosses over continuously between the twophases. On the contrary, close to the surface of a metallic cathode in a chemical cell , the attractionbetween molecules and wall stabilizes the coherent phases so that the layer of interfacial water ismainly coherent and capable of holding a negative electronic charge. When the chemical cell voltageexceeds a threshold, an i! nterfacial water- cathode metal surface plasma mode is developed. Fromthe collective energies continuously pumped into the plasma, the weak interaction e + p+ → n + νemay be induced which produces neutrons and neutrinos from Hydrogen atoms. The neutrons may thenultimately induce other nuclear transmutations on the cathode metal surface.
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