Dynamical supersymmetry breaking on magnetized tori and orbifolds

Hiroyuki Abe; Tatsuo Kobayashi; Keigo Sumita

doi:10.1016/j.nuclphysb.2016.08.030

Dynamical supersymmetry breaking on magnetized tori and orbifolds

Hiroyuki Abe, Tatsuo Kobayashi, Keigo Sumita

Research output: Contribution to journal › Article

4 Citations (Scopus)

Abstract

We construct several dynamical supersymmetry breaking (DSB) models within a single ten-dimensional supersymmetric Yang–Mills (SYM) theory, compactified on magnetized tori with or without orbifolding. We study the case that the supersymmetry breaking is triggered by a strong dynamics of SU(N_C) SYM theory with N_F flavors contained in the four-dimensional effective theory. We show several configurations of magnetic fluxes and orbifolds, those potentially yield, below the compactification scale, the field contents and couplings required for triggering DSB. We especially find a class of self-complete DSB models on orbifolds, where all the extra fields are eliminated by the orbifold projection and DSB successfully occurs within the given framework. Comments on some perspectives for associating the obtained DSB models with the other sectors, such as the visible sector and another hidden sector for, e.g., stabilizing moduli, are also given.

Original language	English
Pages (from-to)	606-622
Number of pages	17
Journal	Nuclear Physics B
Volume	911
DOIs	https://doi.org/10.1016/j.nuclphysb.2016.08.030
Publication status	Published - 2016 Oct 1

ASJC Scopus subject areas

Nuclear and High Energy Physics

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title = "Dynamical supersymmetry breaking on magnetized tori and orbifolds",

abstract = "We construct several dynamical supersymmetry breaking (DSB) models within a single ten-dimensional supersymmetric Yang–Mills (SYM) theory, compactified on magnetized tori with or without orbifolding. We study the case that the supersymmetry breaking is triggered by a strong dynamics of SU(NC) SYM theory with NF flavors contained in the four-dimensional effective theory. We show several configurations of magnetic fluxes and orbifolds, those potentially yield, below the compactification scale, the field contents and couplings required for triggering DSB. We especially find a class of self-complete DSB models on orbifolds, where all the extra fields are eliminated by the orbifold projection and DSB successfully occurs within the given framework. Comments on some perspectives for associating the obtained DSB models with the other sectors, such as the visible sector and another hidden sector for, e.g., stabilizing moduli, are also given.",

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AU - Abe, Hiroyuki

AU - Kobayashi, Tatsuo

AU - Sumita, Keigo

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N2 - We construct several dynamical supersymmetry breaking (DSB) models within a single ten-dimensional supersymmetric Yang–Mills (SYM) theory, compactified on magnetized tori with or without orbifolding. We study the case that the supersymmetry breaking is triggered by a strong dynamics of SU(NC) SYM theory with NF flavors contained in the four-dimensional effective theory. We show several configurations of magnetic fluxes and orbifolds, those potentially yield, below the compactification scale, the field contents and couplings required for triggering DSB. We especially find a class of self-complete DSB models on orbifolds, where all the extra fields are eliminated by the orbifold projection and DSB successfully occurs within the given framework. Comments on some perspectives for associating the obtained DSB models with the other sectors, such as the visible sector and another hidden sector for, e.g., stabilizing moduli, are also given.

AB - We construct several dynamical supersymmetry breaking (DSB) models within a single ten-dimensional supersymmetric Yang–Mills (SYM) theory, compactified on magnetized tori with or without orbifolding. We study the case that the supersymmetry breaking is triggered by a strong dynamics of SU(NC) SYM theory with NF flavors contained in the four-dimensional effective theory. We show several configurations of magnetic fluxes and orbifolds, those potentially yield, below the compactification scale, the field contents and couplings required for triggering DSB. We especially find a class of self-complete DSB models on orbifolds, where all the extra fields are eliminated by the orbifold projection and DSB successfully occurs within the given framework. Comments on some perspectives for associating the obtained DSB models with the other sectors, such as the visible sector and another hidden sector for, e.g., stabilizing moduli, are also given.

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