A fat Higgs with a magnetic personality

Author(s)

Craig, Nathaniel; Stolarski, Daniel; Thaler, Jesse

Abstract

We introduce a novel composite Higgs theory based on con ning supersymmetric QCD. Supersymmetric duality plays a key role in this construction, with a "fat" Higgs boson emerging as a dual magnetic degree of freedom charged under the dual magnetic gauge group. Due to spontaneous color- avor locking in the infrared, the electroweak gauge symmetry is aligned with the dual magnetic gauge group, allowing large Yukawa couplings between elementary matter elds and the composite Higgs. At the same time, this theory exhibits metastable supersymmetry breaking, leading to low-scale gauge mediation via composite messengers. The Higgs boson is heavier than in minimal supersymmetric theories, due to non-decoupling D-terms and a large F-term quartic coupling. This theory predicts quasi-stable TeV-scale pseudo-modulini, some of which are charged under standard model color, possibly giving rise to long-lived R-hadrons at the LHC.

Date issued

2011-11

URI

http://hdl.handle.net/1721.1/72039

Department

Massachusetts Institute of Technology. Center for Theoretical Physics
Massachusetts Institute of Technology. Department of Physics

Journal

Journal of High Energy Physics

Publisher

Springer-Verlag

Citation

Craig, Nathaniel, Daniel Stolarski, and Jesse Thaler. “A fat Higgs with a magnetic personality.” Journal of High Energy Physics 2011.11 (2011).

Version: Author's final manuscript

ISSN

1126-6708

1029-8479