4.4 Article

Confinement on the moose lattice

期刊

JOURNAL OF HIGH ENERGY PHYSICS
卷 -, 期 11, 页码 -

出版社

SPRINGER
DOI: 10.1007/JHEP11(2022)125

关键词

Compositeness; Confinement; Duality in Gauge Field Theories; Supersymmetric Gauge Theory

资金

  1. National Science Foundation [PHY-1607611]
  2. Simons Foundation
  3. NSF [PHY-1620638]
  4. Chair's Dissertation Fellowship from the Department of Physics & Astronomy at UC Irvine

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In this work, a new class of N = 1 supersymmetric confining gauge theories is presented. These theories have simple infrared properties that are derived from complex interconnected networks of product gauge groups. The properties of the infrared degrees of freedom depend on the topology and shape of the original gauge theory's moose/quiver lattice. The study of these theories is important for exploring new models in particle physics.
In this work we present a new class of N = 1 supersymmetric confining gauge theories, with strikingly simple infrared theories that descend from intricate interconnected networks of product gauge groups. A diagram of the gauge groups and the charged matter content of the ultraviolet theory has the structure of a triangular lattice, with SU(N) or SU(3N) gauge groups at each of the vertices, connected by bifundamental chiral superfields. This structure admits a U(1)(R) conserving superpotential with marginal (trilinear) operators. With the introduction of this superpotential, the SU(3N) and SU(N) gauge groups confine: in the far infrared limit of the supersymmetric theory, the relevant degrees of freedom are gauge invariant mesons and baryons. In this paper we show how the properties of the infrared degrees of freedom depend on the topology and shape of the moose/quiver lattice of the original gauge theory. Between the local structure of the moose lattice at higher energies, and the boundary dependence that emerges in the infrared, the 4d moose lattice theory reproduces features of a 6d spacetime with two compact dimensions. We investigate various deformations of the theory, and propose some phenomenological applications for BSM models.

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