N = 1 SCFTs from Brane Monodromy

Jonathan J. Heckman; Yuji Tachikawa; Cumrun Vafa; Brian Wecht

arXiv:1009.0017·hep-th·December 8, 2010

N = 1 SCFTs from Brane Monodromy

Jonathan J. Heckman, Yuji Tachikawa, Cumrun Vafa, Brian Wecht

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TL;DR

This paper introduces a new class of strongly coupled N=1 superconformal field theories derived from D3-brane probes in F-theory, expanding the landscape of known SCFTs with potential phenomenological applications.

Contribution

It demonstrates how monodromy in seven-branes leads to novel N=1 SCFTs from N=2 theories, providing a new geometric and field-theoretic construction method.

Findings

01

New class of N=1 SCFTs constructed from N=2 theories.

02

Eigenvalues of mass matrices do not fully determine the theory.

03

Potential phenomenological couplings to the visible sector.

Abstract

We present evidence for a new class of strongly coupled N = 1 superconformal field theories (SCFTs) motivated by F-theory GUT constructions. These SCFTs arise from D3-brane probes of tilted seven-branes which undergo monodromy. In the probe theory, this tilting corresponds to an N = 1 deformation of an N = 2 SCFT by a matrix of field-dependent masses with non-trivial branch cuts in the eigenvalues. Though these eigenvalues characterize the geometry, we find that they do not uniquely specify the holomorphic data of the physical theory. We also comment on some phenomenological aspects of how these theories can couple to the visible sector. Our construction can be applied to many N = 2 SCFTs, resulting in a large new class of N = 1 SCFTs.

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