Nuclear and Atomic Physics


Lightest Supersymmetric Particle is a Self-Conjugated Neutral Electron

Authors: Antonio Puccini

Analyzing the neutron decay, or beta-decay (Bd), our calculations and evaluations show that the 3rd particle emitted with the Bd (required by Pauli and Fermi to compensate for a noticeable energy gap) can be identified in an electron free of electric charge, that is a neutral electron: e° (instead of a neutrino). In the various Supersymmetric Models, there is the existence of a particle with a limited mass, which can never collapse in a lighter particle: the so-called Lightest Supersymmetric Particle (LSP). To date, this LSP has never been detected in any experiment. Examining the potential properties attributed to that particle in the various Supersymmetric Models, it seems to see a close analogy with features likely to be related to e°. Indeed, from a more in-depth examination, it appears that the properties of the two considered particles are completely superimposable, as if the two particles could be interchangeable, that is, identifiable in one another. It seems interesting to note that in our model we give particular attention to the fundamental property attributable both to the LSP and to the e°, i.e. the symmetry (represented by C, or charge conjugation), detectable by: ē°=C(e°)=e°

Comments: 10 Pages.

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Submission history

[v1] 2017-07-18 05:55:50

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