Inverse of the String Theory KLT Kernel
arXiv:1610.04230 · doi:10.1007/JHEP06(2017)084
Abstract
The field theory Kawai-Lewellen-Tye (KLT) kernel, which relates scattering amplitudes of gravitons and gluons, turns out to be the inverse of a matrix whose components are bi-adjoint scalar partial amplitudes. In this note we propose an analogous construction for the string theory KLT kernel. We present simple diagrammatic rules for the computation of the $α'$-corrected bi-adjoint scalar amplitudes that are exact in $α'$. We find compact expressions in terms of graphs, where the standard Feynman propagators $1/p^2$ are replaced by either $1/\sin (Ïα' p^2/2)$ or $1/\tan (Ïα' p^2/2)$, as determined by a recursive procedure. We demonstrate how the same object can be used to conveniently expand open string partial amplitudes in a BCJ basis.
25 pages, published version, Mathematica notebook attached