A supersymmetric version of the quark model, and supersymmetry breaking for the Leptons, Baryons and Hadronic Mesons: Cybersusy V

TL;DR

This paper introduces cybersusy, a novel supersymmetry breaking mechanism in the standard model, which predicts heavy squarks and sleptons and offers testable predictions for hadron masses, potentially falsifiable.

Contribution

It identifies new invariances in the superpotential that generate a supersymmetric quark and lepton model with supersymmetry breaking, advancing the cybersusy framework.

Findings

Heavy squarks and sleptons predicted by cybersusy

Potentially incorrect predictions for hadron masses

Supersymmetry breaking regenerates the standard model

Abstract

Cybersusy is a new mechanism for supersymmetry breaking in the standard supersymmetric model (SSM). Here we note that the superpotential for the SSM has a set of thirteen invariances, five of which are well known, and eight of which are new. The eight new invariances generate a sort of supersymmetric quark and lepton model, together with supersymmetry breaking that makes the squarks and sleptons very heavy. This breaking regenerates the standard model out of the supersymmetric standard model, except that the gauge particles are not yet included in this reduction. In this paper, it is shown that, with some continued effort, cybersusy will make some predictions for hadron masses that may actually be wrong, so that it is a supersymmetry breaking theory that can be proved wrong! This is the fifth paper in what was intended to be a series of four papers on cybersusy.