Correlation functions of minimal models coupled to two dimensional   quantum supergravity

Kenichiro Aoki; Eric D'Hoker

arXiv:hep-th/9109025·hep-th·October 22, 2009

Correlation functions of minimal models coupled to two dimensional quantum supergravity

Kenichiro Aoki, Eric D'Hoker

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TL;DR

This paper calculates three-point correlation functions of Neveu-Schwarz primary fields in minimal models coupled to 2D supergravity, revealing that these functions depend on the fields' scaling dimensions similarly to the bosonic case.

Contribution

It provides explicit computations of three-point functions in supergravity-coupled minimal models, extending known results from bosonic models to supersymmetric cases.

Findings

01

Three-point functions are determined by scaling dimensions.

02

Results extend bosonic minimal model findings to supersymmetric models.

03

Correlation functions follow similar patterns as in bosonic theories.

Abstract

We compute the three point functions of Neveu--Schwarz primary fields of the minimal models on the sphere when coupled to supergravity in two dimensions. The results show that the three point correlation functions are determined by the scaling dimensions of the fields, as in the bosonic case.

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