Comments on Holographic Gravity Dual of N=6 Superconformal Chern-Simons Gauge Theory
Changhyun Ahn
TL;DR
This paper explores holographic renormalization group flows in four-dimensional theories, connecting mass-deformed Chern-Simons models with M-theory constructions to analyze both supersymmetric and nonsupersymmetric flows.
Contribution
It constructs a geometric superpotential from M-theory to analyze the infrared behavior of various supersymmetric and nonsupersymmetric flows.
Findings
Holographic RG flows in four dimensions are identified.
Mass-deformed N=2, 4 Chern-Simons theories are derived from N=1 models.
M2-brane probe analysis reveals IR properties of flows.
Abstract
The holographic nonsupersymmetric renormalization group flows in four dimensions are found. The mass-deformed N=2, 4 Chern-Simons matter theories can be reproduced from N=1 Chern-Simons matter theory by putting some constraints in the mass terms. We construct the geometric superpotential, from an eleven dimensional M-theory lift, which provides M2-brane probe analysis for the infrared ends of various supersymmetric or nonsupersymmetric flows.
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