LHC Run-3, b−τb-\taub−τ Yukawa Unification and Dark Matter Implications in SUSY 4-2-2 model (original) (raw)

2022, arXiv (Cornell University)

We revisit the bottom and τ Yukawa coupling unification in supersymmetric 4-2-2 model and present for the first time the sbottom-neutralino co-annihilation scenario consistent with the the bottom and τ Yukawa coupling unification. In addition, we show gluinoneutralino, stop-neutralino, stau-neutralino, chargino-neutralino and A-resonance scenario and show that all such solutions are consistent with existing experimental collider constraints, Planck2018 dark matter relic density bounds as well as direct and indirect bounds on neutralino-nucleons scattering cross sections. We show that in sbottom-neutralino coannihilation scenario, the sbottom mass is about 2 TeV whereas in the case of gluinoneutralino, stop-neutralino, the gluino mass can be between 1 TeV to 3 TeV and stop mass in the range of 1 TeV to 3.5 TeV. Moreover, in the case of co-annihilation scenario, the stau and chargino masses can be as heavy as 3.5 TeV, while the A-resonance solutions are in the range of 0.5 TeV to 3.5 TeV. We anticipate that some part of the parameter space will be accessible in the supersymmetry searches at LHC Run-3 and beyond.

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