Supersymmetric Extensions and Dark Matter in Models of Warped Higgsless   EWSB

Alexander Knochel; Thorsten Ohl (W\"urzburg University)

arXiv:0805.1379·hep-ph·November 26, 2008

Supersymmetric Extensions and Dark Matter in Models of Warped Higgsless EWSB

Alexander Knochel, Thorsten Ohl (W\"urzburg University)

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TL;DR

This paper presents a minimal supersymmetric warped Higgsless model that naturally includes a stable dark matter candidate, compatible with experimental constraints without requiring KK-parity.

Contribution

It introduces a supersymmetric extension of a Higgsless model that inherently provides a dark matter candidate stabilized by R-parity.

Findings

01

Model contains a viable dark matter candidate.

02

Compatible with electroweak precision tests.

03

Aligns with observed dark matter abundance.

Abstract

We introduce a minimal supersymmetric extension of a higgsless model for electroweak symmetry breaking in a warped extra dimension. In contrast to the non supersymmetric version, our model naturally contains a candidate for cold dark matter. No KK-parity is required, because its stability is guaranteed by an R-parity. We discuss the regions in parameter that are compatible with the observed dark matter content of our universe and are allowed by electroweak precision measurements as well as direct searches.

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