Hiroshi Yamada's scientific contributions
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Publications (3)
The cold fusion phenomenon is characterized by nuclear reactions in CF materials, i.e. materials including hydrogen isotopes (H or/and D) with high concentration, with no mechanisms to accelerate particles in them. The CF materials are not confined to deuterium but also protium systems and classified into three groups; (1) metallic materials includ...
The cold fusion phenomenon is characterized by nuclear reactions in CF materials, i.e. materials including hydrogen isotopes (H or/and D) with high concentration, with no mechanisms to accelerate particles in them. The CF materials are not confined to deuterium but also protium systems and classified into three groups; (1) metallic materials includ...
The cold fusion phenomenon is characterized by nuclear reactions in CF materials, i.e. materials including hydrogen isotopes (H or/and D) with high concentration, with no mechanisms to accelerate particles in them. The CF materials are not confined to deuterium but also protium systems and classified into three groups; (1) metallic materials includ...
Citations
... The answer to the last question is, of course, that deuterium is present as the deuteron whereas 4 He does not form α-particles. 16,p485 This point was explained in our recent paper. 28 In 1998, Fleischmann explained the basic concept of his experiment on the CFP done before 1989. 24,29 He noted that in 1983, Fleischmann and Pons posed themselves the following two questions: i) Would the nuclear reactions of deuterons confined in a lattice be faster (and different) from the fusion of deuterons in a plasma? ...
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