A Relation between One-Loop Amplitudes of Closed and Open Strings (One-Loop KLT Relation)
Abstract
We express one-loop closed string amplitudes as weighted sums over squares of open string one-loop subamplitudes. These findings generalize - subject to final complex structure modulus integration - the celebrated tree-level relationships known as Kawai-Lewellen-Tye (KLT) relations to higher loops and can be applied for both the massless and massive case - with or without supersymmetry. As a consequence in the field-theory limit our relations capitalize solid one-loop gauge-gravity relations including loop-level color kinematics duality. In particular, in gravitational one-loop amplitudes a graviton is traded for two gluons just like at tree-level. Our results are derived on the underlying string world-sheet torus by splitting each complex string coordinate into a pair of two real cylinder coordinates by means of an analytic continuation on the elliptic curve. This manipulation involves the loop momentum, which mediates between the two one-loop open string cylinder amplitudes.
Cite
@article{arxiv.2212.06816,
title = {A Relation between One-Loop Amplitudes of Closed and Open Strings (One-Loop KLT Relation)},
author = {S. Stieberger},
journal= {arXiv preprint arXiv:2212.06816},
year = {2023}
}
Comments
53 pages, 13 figs, TeX harvmac; v2: Section 4 streamlined