Difference between revisions of "Observations on the Role of Charge Clusters in Nuclear Cluster Reactions"
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− | Experimental evidence in the form of micrographs and X-ray microanalysis is presented suggesting that nuclear charge clusters, (micro sized plasmoids containing 10<sup>11</sup> electrons and 10<sup>6</sup> prontons or deuterons) can accumulate into lattice nuclei with sufficient kinetic energy to overcome the Coulomb barrier and trigger transmutation events. The hypothesis to explain cold fusion is proposed where electrolytic loading of palladium or nickel causes cracking and fractoemission of the charge clusters.[[Category:Scientific Paper]] | + | Experimental evidence in the form of micrographs and X-ray microanalysis is presented suggesting that nuclear charge clusters, (micro sized plasmoids containing 10<sup>11</sup> electrons and 10<sup>6</sup> prontons or deuterons) can accumulate into lattice nuclei with sufficient kinetic energy to overcome the Coulomb barrier and trigger transmutation events. The hypothesis to explain cold fusion is proposed where electrolytic loading of palladium or nickel causes cracking and fractoemission of the charge clusters. |
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+ | [[Category:Scientific Paper|observations role charge clusters nuclear cluster reactions]] |
Latest revision as of 10:47, 1 January 2017
Scientific Paper | |
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Title | Observations on the Role of Charge Clusters in Nuclear Cluster Reactions |
Author(s) | Ken Shoulders, Steve Shoulders |
Keywords | Charge Clusters, Nuclear Reactions |
Published | 1996 |
Journal | Journal of New Energy |
Volume | 1 |
Number | 3 |
Pages | 111-121 |
Abstract
Experimental evidence in the form of micrographs and X-ray microanalysis is presented suggesting that nuclear charge clusters, (micro sized plasmoids containing 1011 electrons and 106 prontons or deuterons) can accumulate into lattice nuclei with sufficient kinetic energy to overcome the Coulomb barrier and trigger transmutation events. The hypothesis to explain cold fusion is proposed where electrolytic loading of palladium or nickel causes cracking and fractoemission of the charge clusters.