Emergent Schrodinger geometries from mass-deformed CFT

Hee-Cheol Kim; Seok Kim; Kimyeong Lee; Jaemo Park

arXiv:1106.4309·hep-th·May 28, 2015

Emergent Schrodinger geometries from mass-deformed CFT

Hee-Cheol Kim, Seok Kim, Kimyeong Lee, Jaemo Park

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TL;DR

This paper explores how mass deformation in a specific M-theory setup leads to emergent Schrödinger geometries, providing insights into non-relativistic limits of holographic duals with Sasaki-Einstein manifolds.

Contribution

It demonstrates the emergence of Schrödinger geometries from mass-deformed M-theory solutions involving Sasaki-Einstein manifolds, detailing the field theory deformation for a round sphere case.

Findings

01

Infrared solutions contain 5D Schrödinger geometry.

02

Mass deformation analyzed for round sphere case.

03

Holographic flow connects AdS4 to Schrödinger spacetime.

Abstract

We study an M-theory solution for the holographic flow of AdS4 times Sasaki-Einstein 7-manifolds with skew-whiffing, perturbed by a mass operator. The infrared solution contains the 5 dimensional Schrodinger geometry after considering the gravity dual of the standard non-relativistic limit of relativistic field theories. The mass deformation of the field theory is discussed in detail for the case with 7 manifold being a round sphere.

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