SUSY Quivers, Intersecting Branes and the Modest Hierarchy Problem

TL;DR

This paper introduces a class of non-supersymmetric chiral field theories derived from D-brane configurations that exhibit quadratic divergences only at two loops, potentially addressing the hierarchy problem.

Contribution

It constructs SUSY quiver theories from D6-brane intersections, linking string theory configurations to low-energy phenomenology and hierarchy stability.

Findings

Quadratic divergences appear only at two loops in these models.

Gauge couplings and FI terms match between string and field theory.

Specific D-brane models replicate the SUSY Standard Model spectrum.

Abstract

We present a class of chiral non-supersymmetric D=4 field theories in which quadratic divergences appear only at two loops. They may be depicted as ``SUSY quivers'' in which the nodes represent a gauge group with extended e.g., N=4 SUSY whereas links represent bifundamental matter fields which transform as chiral multiplets with respect to different N=1 subgroups. One can obtain this type of field theories from simple D6-brane configurations on Type IIA string theory compactified on a six-torus. We discuss the conditions under which this kind of structure is obtained from D6-brane intersections. We also discuss some aspects of the effective low-energy field theory. In particular we compute gauge couplings and Fayet-Iliopoulos terms from the Born-Infeld action and show how they match the field theory results. This class of theories may be of phenomenological interest in order to understand the modest hierarchy problem i.e., the stability of the hierarchy between the weak scale and a fundamental scale of order 10-100 TeV which appears e.g. in low string scale models. Specific D-brane models with the spectrum of the SUSY Standard Model and three generations are presented.