Quiver Gauge Theory and Conformality at the TeV Scale

Paul H. Frampton; Thomas W. Kephart

arXiv:0706.4259·hep-ph·November 26, 2008

Quiver Gauge Theory and Conformality at the TeV Scale

Paul H. Frampton, Thomas W. Kephart

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TL;DR

This review explores how quiver gauge theories and conformality principles can extend the Standard Model, addressing issues like anomaly cancellation, unification, and dark matter at the TeV scale.

Contribution

It provides a comprehensive overview of conformality-based extensions to the Standard Model, emphasizing anomaly cancellation and phenomenological implications.

Findings

01

Proposes strong-electroweak unification at 4 TeV

02

Demonstrates cancellation of quadratic divergences

03

Identifies a viable dark matter candidate

Abstract

This review describes the conformality approach to extending the standard model of particle phenomenology using an assumption of no conformal anomaly at high energy. Topics include quiver gauge theory, the conformality approach to phenomenology, strong-electroweak unification at 4 TeV, cancellation of quadratic divergences, cancellation of U(1) anomalies, and a dark matter candidate.

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Taxonomy

TopicsParticle physics theoretical and experimental studies · Computational Physics and Python Applications · Dark Matter and Cosmic Phenomena