Gauge Symmetry Breaking in Models inspired by Non-Commutative Geometry
Koji Hashimoto
TL;DR
This paper explores gauge symmetry breaking in non-commutative geometry-inspired models, highlighting SU(5) models' natural tendency to preserve the Standard Model gauge group, and discusses a more realistic model with potential D-brane interpretation.
Contribution
It introduces a new realistic model of gauge symmetry breaking inspired by non-commutative geometry and discusses its potential D-brane interpretation.
Findings
SU(5) models favor a vacuum with SU(3) x SU(2) x U(1) symmetry
A more realistic model of gauge symmetry breaking is proposed
Discussion of D-brane interpretation possibilities
Abstract
In models inspired by non-commutative geometry, patterns of gauge symmetry breaking are analyzed, and SU(5) models are found to naturally favor a vacuum preserving SU(3) X SU(2) X U(1). A more realistic model is presented, and the possibility of D-brane interpretation is discussed.
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