Intersecting defects and supergroup gauge theory

Kimura, Taro; Nieri, Fabrizio

doi:10.1088/1751-8121/ac2716

Cited by 16 publications

(16 citation statements)

References 168 publications

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“…By considering these two screening currents at the same time, one can discuss the supergroup analog of the (q-)matrix model[KN21,CZ21].…”

mentioning

confidence: 99%

Virasoro Constraint for Uglov Matrix Model

Khlaif,

Kimura

2022

Preprint

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“…By considering these two screening currents at the same time, one can discuss the supergroup analog of the (q-)matrix model[KN21,CZ21].…”

mentioning

confidence: 99%

Virasoro Constraint for Uglov Matrix Model

Khlaif,

Kimura

2022

Preprint

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“…The partition function of ABJ theory can be expressed as a matrix integral over two sets of independent variables {x i } N i=1 and {y a } M a=1 which can be interpreted as the eigenvalues of an Hermitean super-matrix in the Lie super-algebra of U (N |M). The usual Vandermonde determinant in the measure is first substituted by the Cauchy determinant and then q, t-deformed to the function (see [40][41][42])…”

Section: Harer-zagier Formulasmentioning

confidence: 99%

On refined Chern–Simons and refined ABJ matrix models

Cassia

Zabzine

2022

Lett Math Phys

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We consider the matrix model of U(N) refined Chern–Simons theory on $$S^3$$ S 3 for the unknot. We derive a q-difference operator whose insertion in the matrix integral reproduces an infinite set of Ward identities which we interpret as q-Virasoro constraints. The constraints are rewritten as difference equations for the generating function of Wilson loop expectation values which we solve as a recursion for the correlators of the model. The solution is repackaged in the form of superintegrability formulas for Macdonald polynomials. Additionally, we derive an equivalent q-difference operator for a similar refinement of ABJ theory and show that the corresponding q-Virasoro constraints are equal to those of refined Chern–Simons for a gauge super-group U(N|M). Our equations and solutions are manifestly symmetric under Langlands duality $$q\leftrightarrow t^{-1}$$ q ↔ t - 1 which correctly reproduces 3d Seiberg duality when q is a specific root of unity.

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“…This note, a brief account of the results published in [17] (supplemented by original computations in Subsection 2.1), is about yet another place where supergroup gauge theories, a supergroup version of refined Chern-Simons in particular [18], show up: SUSY theories based on ordinary gauge groups but supported on intersecting subspaces embedded in an ambient space. The intersecting gauge theories of our interest arise upon Higgsing a parent 5d SUSY gauge theory with unitary group in the Ω-background C 2 q,t −1 × S 1 , while the support of the defects is given by the two orthogonal cigars C q × S 1 and C t −1 × S 1 intersecting at the origin along a common circle (Fig.…”

Section: Intersecting Defects and Supermatrix-like Modelsmentioning

confidence: 99%

“…Let us note that, because of the original q ↔ t −1 symmetry, we considered here the chamber |q| < 1, |t −1 | < 1, which is, however, tricky for the unrefined limit. The case |q| < 1, |t| < 1 is discussed in[17].…”

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confidence: 99%

Defects at the Intersection: the Supergroup Side

Nieri¹

2021

Preprint

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We consider two seemingly different theories in the Ω-background: one arises upon the most generic Higgsing of a 5d N = 1 U(N ) gauge theory coupled to matter, yielding a 3d-1d intersecting defect; the other one arises upon simple Higgsing of a 5d N = 1 U(N |M ) supergroup gauge theory coupled to super-matter, yielding another defect. The cases N = M = 1 are discussed in detail via equivariant localization to matrix-like models. The first theory exhibits itself a supergroup-like structure, which can be motivated via non-perturbative string dualities, and in a matter decoupling limit it is argued to be dual to a supergroup version of refined Chern-Simons theory. Furthermore, it is observed that the partition functions of the two defect theories are related by analytic continuation in one of the equivariant parameters. We find a common origin in the algebraic engineering through q-Virasoro screening currents. Another simple Higgsing of the 5d N = 1 U(1|1) yields a single component defect whose partition function is reminiscent of ordinary refined Chern-Simons on a lens space.

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Intersecting defects and supergroup gauge theory

Cited by 16 publications

References 168 publications

Virasoro Constraint for Uglov Matrix Model

Virasoro Constraint for Uglov Matrix Model

On refined Chern–Simons and refined ABJ matrix models

Defects at the Intersection: the Supergroup Side

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