Cosmological Breaking of Supersymmetry?

T.Banks

arXiv:hep-th/0007146·hep-th·June 25, 2015

Cosmological Breaking of Supersymmetry?

T.Banks

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TL;DR

The paper explores the idea that supersymmetry breaking in our universe might be due to a nonzero cosmological constant, with a specific relation involving a critical exponent influenced by virtual black holes.

Contribution

It proposes a novel explanation for SUSY breaking linked to the cosmological constant and introduces a specific critical exponent value supported by UV/IR correspondence effects.

Findings

01

The critical exponent α may be 1/8 instead of 1/4.

02

Large virtual black holes influence SUSY breaking.

03

A connection between cosmological constant and supersymmetry is suggested.

Abstract

It is conjectured that M-theory in asymptotically flat spacetime must be supersymmetric, and that the observed SUSY breaking in the low energy world must be attributed to the existence of a nonzero cosmological constant. This would be consistent with experiment, if the {\it critical exponent} $α$ in the relation $M_{S U S Y} \sim M_{P} (Λ/ M_{P}^{4})^{α}$ took on the value 1/8, rather than its classical value 1/4. We attribute this large renormalization to the effect of large virtual black holes via the UV/IR correspondence.

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