Referenced internal-line decomposition of one-loop string integrand and application to gauge and gravitational beta functions

Following the idea of Refs.[1,2], the double-copy-like decomposition of exchanged internal states in the world-line limit of one-loop string amplitudes is systematically formulated and generalized to both bosonic and heterotic string theories. As an application, the one-loop beta functions for the gauge and gravitational coupling constants are investigated by analyzing the low-energy field-theory limit of the corresponding three-point one-loop amplitudes in heterotic string theory under a naive $T^6$ compactification. Due to supersymmetry, these beta functions vanish trivially. However, by decomposing the scattering integrand according to the different internal loop-exchanged states, the most general model-independent results are obtained.

💡 Research Summary

The paper introduces a systematic “referenced internal‑line” decomposition of one‑loop string amplitudes, extending the double‑copy‑like ideas of Refs.