Heterotic String Sigma Models: Discrete Light Cone Quantization and Its Current-Current Deformation
Abstract
We propose a two-dimensional superstring sigma model that defines a self-contained corner of heterotic string theory, whose second quantization is heterotic matrix string theory. This worldsheet theory arises from a BPS decoupling limit that zooms in on the heterotic string, under which the target space geometry becomes non-Lorentzian. This construction generalizes the Gomis-Ooguri formulation of non-relativistic string theory to the heterotic case. We show how such a worldsheet theory provides a first-principles definition of the heterotic string in the discrete light cone quantization via T-duality. By turning on a current-current deformation akin to a deformation, the conventional heterotic string theory with a Lorentzian target space is recovered. We analyze the gauge and gravitational anomalies with respect to the lowest-order quantum corrections in the sigma model and show how the worldsheet theory is consistent with non-Lorentzian supergravity in the target space.
Keywords
Cite
@article{arxiv.2505.07458,
title = {Heterotic String Sigma Models: Discrete Light Cone Quantization and Its Current-Current Deformation},
author = {Eric A. Bergshoeff and Kevin T. Grosvenor and Luca Romano and Ziqi Yan},
journal= {arXiv preprint arXiv:2505.07458},
year = {2025}
}
Comments
32 pages + appendices and references; v2: minor typos fixed, references added