Holographic space-time and its phenomenological implications

T. Banks (Rutgers NHETC; SCIPP-UCSC)

arXiv:1004.2736·hep-th·December 13, 2010

Holographic space-time and its phenomenological implications

T. Banks (Rutgers NHETC, SCIPP-UCSC)

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TL;DR

This paper reviews Holographic Space-time theory, discusses its implications for the cosmological constant and SUSY breaking, and proposes a unique Tera-scale physics model with dark matter candidates and SUSY breaking mechanisms.

Contribution

It introduces a fairly unique Tera-scale physics model derived from Holographic Space-time, linking cosmological constant, SUSY breaking, and dark matter.

Findings

01

Proposes direct gauge mediation of SUSY breaking.

02

Models dark matter as a hidden sector baryon with magnetic dipole moment.

03

Connects Holographic Space-time to phenomenological implications.

Abstract

I briefly review the theory of Holographic Space-time and its relation to the cosmological constant problem, and the breaking of supersymmetry (SUSY). When combined with some simple phenomenological requirements, these ideas lead to a fairly unique model for Tera-scale physics, which implies direct gauge mediation of SUSY breaking and a model for dark matter as a hidden sector baryon, with nonzero magnetic dipole moment.

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