Perturbation theory for string sigma models
Abstract
In this thesis we investigate quantum aspects of the Green-Schwarz superstring in various AdS backgrounds relevant for the AdS/CFT correspondence, providing several examples of perturbative computations in the corresponding integrable sigma-models. We start by reviewing in details the supercoset construction of the superstring action in , pointing out the limits of this procedure for and backgrounds. For the case we give a thorough derivation of an alternative action, based on the double-dimensional reduction of eleven-dimensional super-membranes. We then consider the expansion about the BMN vacuum and the S-matrix for the scattering of worldsheet excitations in the decompactification limit. To evaluate its elements efficiently we describe a unitarity-based method resulting in a very compact formula yielding the cut-constructible part of any one-loop two-dimensional S-matrix. In the second part of this review we analyze the superstring action on expanded around the null cusp vacuum. The free energy of this model, whose computation we reproduce up to two-loops at strong coupling, is related to the cusp anomalous dimension of the ABJM theory and, indirectly, to a non-trivial effective coupling featuring all integrability-based calculations in . Finally, we extensively discuss the comparison of the perturbative results and the integrability predictions for the one-loop dispersion relation of GKP excitations. Our results provide valuable data in support of the quantum consistency of the string actions - often debated due to possible issues with cancellation of UV divergences and the lack of manifest power-counting renormalizability - and furnish non-trivial stringent tests for the quantum integrability of the analyzed models.
Cite
@article{arxiv.1604.01676,
title = {Perturbation theory for string sigma models},
author = {Lorenzo Bianchi},
journal= {arXiv preprint arXiv:1604.01676},
year = {2017}
}
Comments
198 pages. Based on the author's PhD thesis and on the publications arXiv:1304.1798, arXiv:1401.0448, arXiv:1405.7947, arXiv:1407.4788, arXiv:1505.00783