Certain aspects of structure of electron - revised

 

Certain aspects of structure of electron - revised

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Abstract - The values of four different fields related to electron: gravitational, 2D-mass-flux (flow of electron rest mass across a boundary of a length of reduced electron Compton wavelength in a time of half electron Compton period), electric, and magnetic, can be written with very similar formulas that bind them in analogical pairs: gravitational vs magnetic and 2D-mass-flux vs electric. Four integrals over these fields in space and time produce the electron-specific ‘charges’: circulation quantum, rest mass, magnetic flux quantum, and elementary charge, which also form pairs analogous with respect to their proposed structure: circulation quantum-elementary charge, and electron rest mass-magnetic flux quantum. A specific value of the gravitational constant is hypothesized and an extension to the SI system of units is proposed that allows for comparisons between its mechanical and electromagnetic units, as was the case in the CGS-Gaussian system of units, and what makes the SI system more competitive vs natural units systems for use in high energy and nuclear physics. It is hypothesized that the total rest energy of electron consists of contributions from its gravitational and electromagnetic energies in equal parts.