English

Two-Loop Superstrings VI: Non-Renormalization Theorems and the 4-Point Function

High Energy Physics - Theory 2008-11-26 v1 Complex Variables

Abstract

The N-point amplitudes for the Type II and Heterotic superstrings at two-loop order and for N4N \leq 4 massless NS bosons are evaluated explicitly from first principles, using the method of projection onto super period matrices introduced and developed in the first five papers of this series. The gauge-dependent corrections to the vertex operators, identified in paper V, are carefully taken into account, and the crucial counterterms which are Dolbeault exact in one insertion point and de Rham closed in the remaining points are constructed explicitly. This procedure maintains gauge slice independence at every stage of the evaluation. Analysis of the resulting amplitudes demonstrates, from first principles, that for N3N\leq 3, no two-loop corrections occur, while for N=4, no two-loop corrections to the low energy effective action occur for R4R^4 terms in the Type II superstrings, and for F4F^4, F2F2F^2F^2, F2R2F^2R^2, and R4R^4 terms in the Heterotic strings.

Keywords

Cite

@article{arxiv.hep-th/0501197,
  title  = {Two-Loop Superstrings VI: Non-Renormalization Theorems and the 4-Point Function},
  author = {Eric D'Hoker and D. H. Phong},
  journal= {arXiv preprint arXiv:hep-th/0501197},
  year   = {2008}
}

Comments

98 pages, no figure