Document Type

Working Paper

Publication Title

On Magnetic moments Of Up and Down Quarks And Electron Neutrino Structures Composed Of Fractional Charges

Abstract

Abstract

Using our models of elementary particles as spinning structures composed of fractional +-e/3 charges, we suggest a possible mechanism of the inverse-b reaction as the transfer of one +e/3 charge from its axial position in the antineutrino to the axial position in an up-quark of a proton. Such a transfer converts that up-quark into a positron, and the antineutrino becomes a down-quark after one of the antineutrino’s axial positive charges is removed from it. We will consider that a positron is a tetrahedral-like structure with three positive basic charges revolve about the axis passing through the fourth positive basic charge and a single negative basic charge in the structure. Such a structure of an electron was suggested in [1]. The relative distances between the basic charges in such a structure were calculated in [9]. Because a transfer of any charged particle to or from its axial position in any spinning structure does not change the structure’s angular momentum and the magnetic moment, we conclude that the spin and the magnetic moment of an up-quark are the same as those of a positron. We can also conclude that the spin and the magnetic moment of a down-quark are the same as those vectors of an electron antineutrino.

First Page

1

Last Page

4

Publication Date

Summer 8-11-2024

Department

Physics Department

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