Matrix model holography

Thomas Ortiz; Henning Samtleben; Dimitrios Tsimpis

arXiv:1410.0487·hep-th·June 23, 2015

Matrix model holography

Thomas Ortiz, Henning Samtleben, Dimitrios Tsimpis

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TL;DR

This paper develops a holographic renormalization framework for a specific supergravity model related to D0-branes and uses it to compute correlation functions in the BFSS matrix quantum mechanics and its deformations.

Contribution

It introduces a formalism for holographic renormalization in matter-coupled 2D supergravity and applies it to compute correlators in matrix quantum mechanics.

Findings

01

Computed one- and two-point functions holographically.

02

Established a formalism for holographic renormalization in this setting.

03

Analyzed supersymmetric deformations of the BFSS model.

Abstract

We set up the formalism of holographic renormalization for the matter-coupled two-dimensional maximal supergravity that captures the low-lying fluctuations around the non-conformal D0-brane near-horizon geometry. As an application we compute holographically one- and two-point functions of the BFSS matrix quantum mechanics and its supersymmetric $S O (3) \times S O (6)$ deformation.

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