Charge Clusters, Low Energy Nuclear Reactions and Electron Structure

Abstract

This paper proposes the possibility that the formation of coherent charge clusters in nanometric gaps may have a role in the generation of Ultra Dense Hydrogen, Compton Scale Structures and in the catalysis of Low Energy Nuclear Reactions. This hypothesis is strictly related to a simple and intuitive theoretical framework that, in agreement with Occam’s razor principle, proposes a common origin of fundamental physical properties as charge, mass, relativistic mass, spin and magnetic moment. This approach needs a particular Zitterbewegung electron model derived by a purely geometric/electromagnetic interpretation of Maxwell-Proca, Planck, De Broglie, Schrödinger, relativistic energy momentum and Aharonov-Bohm equations. Starting from this Zitterbewegung model a realistic hypothesis may be formulated on the structure of dense charge clusters seen by Shoulders and other researchers in their experiments.