Theoretical Standard Model Rates of Proton to Neutron Conversions Near Metallic Hydride Surfaces

Details Theoretical Standard Model Rates of Proton to Neutron Conversions Near Metallic Hydride Surfaces Theoretical Standard Model Rates of Proton to Neutron Conversions Near Metallic Hydride Surfaces

2006-08-25

arxiv.org/abs/nucl-th/0608059v2

Physics

Nuclear Physics

Nuclear Theory

ReVTeX format 12 pages and 4 *.eps figures

Scientific paper

The process of radiation induced electron capture by protons or deuterons producing new ultra low momentum neutrons and neutrinos may be theoretically described within the standard field theoretical model of electroweak interactions. For protons or deuterons in the neighborhoods of surfaces of condensed matter metallic hydride cathodes, such conversions are determined in part by the collective plasma modes of the participating charged particles, e.g. electrons and protons. The radiation energy required for such low energy nuclear reactions may be supplied by the applied voltage required to push a strong charged current across a metallic hydride surface employed as a cathode within a chemical cell. The electroweak rates of the resulting ultra low momentum neutron production are computed from these considerations.

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