CYBERSUSY: A new mechanism for supersymmetry breaking in models like the supersymmetric standard model (SSM)

TL;DR

Cybersusy introduces a novel supersymmetry breaking mechanism linked to gauge symmetry breaking in models like the SSM, predicting specific superpartner masses and a zero cosmological constant, aligning with experimental data.

Contribution

The paper proposes a new SUSY breaking mechanism called Cybersusy, specific to models like the SSM, with concrete predictions for superpartner masses and cosmological constant.

Findings

Predicts the Velectron mass at 316 GeV.

Predicts the Selectron mass at 771 GeV.

Results are consistent with current experimental observations.

Abstract

The SUSY breaking in Cybersusy is proportional to the VEV that breaks the gauge symmetry SU(2) X U(1) down to U(1), and it is rather specific to models like the SSM. Assuming full breaking, as explained below, for the leptons, Cybersusy predicts a spectrum of SUSY breaking that is in accord with experimental results so far. In particular, for the choice of parameters below, Cybersusy predicts that the lowest mass superpartner for the charged leptons is a charged vector boson lepton (the Velectron), which has a mass of 316 Gev . The Selectron has a mass of 771 Gev for that choice of parameters. The theory also leads to a zero cosmological constant after SUSY breaking. The mechanism generates equations that restrict models like the SSM. This version of this paper incorporates recent results and changes discovered subsequent to the talk.