Supersymmetry from Typicality

Yasunori Nomura; Satoshi Shirai

arXiv:1407.3785·hep-ph·September 17, 2014

Supersymmetry from Typicality

Yasunori Nomura, Satoshi Shirai

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TL;DR

This paper argues that the multiverse framework naturally leads to a form of low energy supersymmetry, specifically spread or mini-split supersymmetry, with gauginos at TeV scales and other superpartners much heavier.

Contribution

It introduces a simple realization of supersymmetric grand unified theory based on the multiverse-induced supersymmetry spectrum.

Findings

01

Supports the multiverse as a mechanism for supersymmetry breaking.

02

Predicts gauginos at TeV energies and heavier scalar superpartners.

03

Provides a concrete GUT model consistent with the spread supersymmetry spectrum.

Abstract

We argue that under a set of simple assumptions the multiverse leads to low energy supersymmetry with the spectrum often called spread or mini-split supersymmetry: the gauginos are in the TeV region with the other superpartners two or three orders of magnitude heavier. We present a particularly simple realization of supersymmetric grand unified theory using this idea.

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