Bootstrability in Line-Defect CFT with Improved Truncation Methods
Abstract
We study the conformal bootstrap of 1D CFTs on the straight Maldacena-Wilson line in 4D super-Yang-Mills theory. We introduce an improved truncation scheme with an 'OPE tail' approximation and use it to reproduce the 'bootstrability' results of Cavagli\`a et al. for the OPE-coefficients squared of the first three unprotected operators. For example, for the first OPE-coefficient squared at 't Hooft coupling , linear-functional methods with two sum rules from integrated correlators give the rigorous result , whereas our methods give with machine-precision computations . For our numerical searches, we benchmark the Reinforcement Learning Soft Actor-Critic algorithm against an Interior Point Method algorithm (IPOPT) and comment on the merits of each algorithm.
Cite
@article{arxiv.2306.15730,
title = {Bootstrability in Line-Defect CFT with Improved Truncation Methods},
author = {V. Niarchos and C. Papageorgakis and P. Richmond and A. G. Stapleton and M. Woolley},
journal= {arXiv preprint arXiv:2306.15730},
year = {2023}
}
Comments
44 pages, 4 figures; v2: typos corrected and references added