Document Type
Working Paper
Publication Title
Structural Factors Of An Electron As The Spinning Tetrahedral Structure Composed Of Fractional Charges
Abstract
Abstract
As suggested in our papers [1,2], the elementary particles of the 1st generation such as an electron, quarks, and neutral particles, are all spinning composite structures made of basic elementary particles of fractional charges +- e/3. The tetrahedral structure of an electron was suggested as one of the possible composite structures of that particle. The structure consists of one positive and four negative charges of magnitude e/3, with one positive and one negative charge located on the axis of rotation and three negative charges revolving about the axis. In this paper, the form factors such as the angles and the relative distances between the fractional e/3 charges of the tetrahedral-like structure of an electron are calculated from the condition of the zero net forces on each charge located on the axis of rotation. The results might be of special interest in view of the recently published experimental observations [3, 4] of electrons as spinning structures made of quasiparticles of a fractional e/3 charge that agree with our model of an electron suggested in [1].
First Page
1
Last Page
4
Publication Date
7-10-2024
Department
Physics Department
Recommended Citation
Perov, Polievkt, "Structural Factors Of An Electron As The Spinning Tetrahedral Structure Composed Of Fractional Charges" (2024). College of Arts & Sciences Faculty Works. 25.
https://dc.suffolk.edu/cas-faculty/25