Perturbative type II amplitudes for BPS interactions

TL;DR

This paper analyzes perturbative contributions to certain BPS interactions in toroidally compactified type II string theory, deriving and solving Poisson equations for moduli-dependent amplitudes with implications for duality invariance.

Contribution

It derives explicit Poisson equations for BPS interactions in type II string theory and solves them in specific dimensions, advancing understanding of moduli dependence and duality invariance.

Findings

Poisson equations for R^4, D^4 R^4, D^6 R^4 interactions derived

Explicit solutions obtained in nine and eight dimensions

Boundary terms from moduli space and supergravity divergences identified

Abstract

We consider the perturbative contributions to the R^4, D^4 R^4 and D^6 R^4 interactions in toroidally compactified type II string theory. These BPS interactions do not receive perturbative contributions beyond genus three. We derive Poisson equations satisfied by these moduli dependent string amplitudes. These T--duality invariant equations have eigenvalues that are completely determined by the structure of the integrands of the multi--loop amplitudes. The source terms are given by boundary terms of the moduli space of Riemann surfaces corresponding to both separating and non--separating nodes. These are determined directly from the string amplitudes, as well as from the logarithmic divergences of maximal supergravity. We explicitly solve these Poisson equations in nine and eight dimensions.