F-Theory Grand Unification at the Colliders

Tianjun Li; James A. Maxin; Dimitri V. Nanopoulos

arXiv:1002.1031·hep-ph·March 13, 2015

F-Theory Grand Unification at the Colliders

Tianjun Li, James A. Maxin, Dimitri V. Nanopoulos

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TL;DR

This paper predicts a unique gaugino mass relation at the electroweak scale in F-theory GUT models, which can be tested at colliders and remains consistent with experimental constraints.

Contribution

It introduces a new gaugino mass relation specific to F-theory SU(5) and SO(10) models, with detailed predictions for collider tests.

Findings

01

Gaugino mass relation is preserved at two-loop level with minimal deviation.

02

Models satisfy current experimental constraints and CDMS II data.

03

Predictions are testable at LHC and ILC.

Abstract

We predict the exact gaugino mass relation near the electroweak scale at one loop for gravity mediated supersymmetry breaking in F-theory SU(5) and SO(10) models with U(1)_Y and U(1)_{B-L} fluxes, respectively. The gaugino mass relation introduced here differs from the typical gaugino mass relations studied thus far, and in general, should be preserved quite well at low energy. Therefore, these F-Theory models can be tested at the Large Hadron Collider and future International Linear Collider. We present two typical scenarios that satisfy all the latest experimental constraints and are consistent with the CDMS II experiment. In particular, the gaugino mass relation is indeed satisfied at two-loop level with only a very small deviation around the electroweak scale.

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