DLCQ Strings, Twist Fields and One-Loop Correlators on a Permutation Orbifold

TL;DR

This paper explores the connection between matrix string theory and light-cone string field theory by analyzing two-loop thermal partition functions and twist field correlators in permutation orbifold conformal field theories, providing explicit formulas and demonstrating agreement.

Contribution

It introduces combinatorial methods for twist field correlations in permutation orbifolds and relates two-loop DLCQ string theory to Prym varieties, advancing understanding of string interactions.

Findings

Explicit formulas for Z(2) orbifold twist field correlators in string theories.

Demonstrated agreement between two-loop DLCQ string amplitudes and orbifold CFT calculations.

Developed techniques linking string theory amplitudes to algebraic geometry of Prym varieties.

Abstract

We investigate some aspects of the relationship between matrix string theory and light-cone string field theory by analysing the correspondence between the two-loop thermal partition function of DLCQ strings in flat space and the integrated two-point correlator of twist fields in a symmetric product orbifold conformal field theory at one-loop order. This is carried out by deriving combinatorial expressions for generic twist field correlation functions in permutation orbifolds using the covering surface method, by deriving the one-loop modification of the twist field interaction vertex, and by relating the two-loop finite temperature DLCQ string theory to the theory of Prym varieties for genus two covers of an elliptic curve. The case of bosonic Z(2) orbifolds is worked out explicitly and precise agreement between both amplitudes is found. We use these techniques to derive explicit expressions for Z(2) orbifold spin twist field correlation functions in the Type II and heterotic string theories.