Chiral four dimensional field theory from superstring and higher dimensional super Yang-Mills theory

TL;DR

This paper explores how four-dimensional chiral theories emerge from string theory and higher-dimensional super Yang-Mills, focusing on flux mechanisms, wavefunction localization, and flavor symmetries with phenomenological implications.

Contribution

It provides a detailed analysis of flux-induced chirality, wavefunction overlaps for Yukawa couplings, and the emergence of discrete flavor symmetries in string-derived models, including orbifold compactifications.

Findings

Background flux induces chiral fermions in 4D

Yukawa couplings are determined by wavefunction overlaps

Discrete flavor symmetries naturally appear in the models

Abstract

We study four dimensional field theory from the low-energy effective theory of Type I, II or heterotic string theories. Chiral fermions in four dimensions are obtained by several mechanisms. Especially, the background flux is one of the most interesting mechanisms for obtaining four dimensional chiral theories. Chiral matter fields have localized wavefunctions on extra dimensions. We discuss about the relations between background flux and low-energy spectra which are counted by their zero-modes. Yukawa couplings are free parameters in the standard model and may be related to the underlying physics. In the string theory or its low-energy limit, they are determined by overlap integral of wavefunctions on extra dimensions. We also study the higher order couplings based on the field theoretical approach. From the analysis of generic n-point couplings, we can discuss about flavor structures. We find that in such a construction some discrete flavor symmetries appear in the four dimensional effective theory. Their phenomenological implications are discussed. Furthermore we extend these constructions to orbifold background. Magnetic flux still plays an important role and leads to various types of low-energy spectra different from that of toroidal compactifications. The orbifold models with heterotic string are also investigated.