The 4d superconformal index near roots of unity and 3d Chern-Simons theory

A bstract We consider the S 3 × S 1 superconformal index ℐ( τ ) of 4d N = 1 gauge theories. The Hamiltonian index is defined in a standard manner as the Witten index with a chemical potential τ coupled to a combination of angular momenta on S 3 and the U(1) R-charge. We develop the all-order asympto...

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Bibliographic Details
Published in:The journal of high energy physics 2021-10, Vol.2021 (10), p.1-47, Article 207
Main Authors: Ardehali, Arash Arabi, Murthy, Sameer
Format: Article
Language:English
Subjects:
AdS-CFT Correspondence
Algebra
Asymptotic series
Black Holes in String Theory
Chemical potential
Classical and Quantum Gravitation
Couplings
Elementary Particles
Entropy
Field theory (physics)
Gauge theory
High energy physics
Partitions (mathematics)
Physics
Physics and Astronomy
Quantum Field Theories
Quantum Field Theory
Quantum Physics
Quantum theory
Regular Article - Theoretical Physics
Relativity Theory
String Theory
Supersymmetry
Unity
Yang-Mills theory
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Summary:A bstract We consider the S 3 × S 1 superconformal index ℐ( τ ) of 4d N = 1 gauge theories. The Hamiltonian index is defined in a standard manner as the Witten index with a chemical potential τ coupled to a combination of angular momenta on S 3 and the U(1) R-charge. We develop the all-order asymptotic expansion of the index as q = e 2 π i τ approaches a root of unity, i.e. as τ ~ ≡ mτ + n → 0, with m, n relatively prime integers. The asymptotic expansion of log ℐ( τ ) has terms of the form τ ~ k , k = − 2 , − 1 , 0 , 1. We determine the coefficients of the k = − 2 , − 1 , 1 terms from the gauge theory data, and provide evidence that the k = 0 term is determined by the Chern-Simons partition function on S 3 /ℤ m . We explain these findings from the point of view of the 3d theory obtained by reducing the 4d gauge theory on the S 1 . The supersymmetric functional integral of the 3d theory takes the form of a matrix integral over the dynamical 3d fields, with an effective action given by supersymmetrized Chern-Simons couplings of background and dynamical gauge fields. The singular terms in the τ ~ → 0 expansion (dictating the growth of the 4d index) are governed by the background Chern-Simons couplings. The constant term has a background piece as well as a piece given by the localized functional integral over the dynamical 3d gauge multiplet. The linear term arises from the supersymmetric Casimir energy factor needed to go between the functional integral and the Hamiltonian index.
ISSN:1029-8479
1029-8479
DOI:10.1007/JHEP10(2021)207