Andrey Smirnov scite author profile

The colored HOMFLY polynomials, which describe Wilson loop averages in Chern-Simons theory, possess an especially simple representation for torus knots, which begins from quantum R-matrix and ends up with a trivially-looking split W representation familiar from character calculus applications to matrix models and Hurwitz theory. Substitution of MacDonald polynomials for characters in these formulas provides a very simple description of "superpolynomials", much simpler than the recently studied alternative which deforms relation to the WZNW theory and explicitly involves the Littlewood-Richardson coefficients. A lot of explicit expressions are presented for different representations (Young diagrams), many of them new. In particular, we provide the superpolynomial P for arbitrary m and k. The procedure is not restricted to the fundamental (all antisymmetric) representations and the torus knots, still in these cases some subtleties persist.

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Proving AGT conjecture as HS duality: Extension to five dimensions

Миронов

Морозов²,

Shakirov³

et al. 2012

Nuclear Physics B

110

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We extend the proof from [25],which interprets the AGT relation as the Hubbard-Stratonovich duality relation to the case of 5d gauge theories. This involves an additional q-deformation. Not surprisingly, the extension turns out to be trivial: it is enough to substitute all relevant numbers by q-numbers in all the formulas, Dotsenko-Fateev integrals by the Jackson sums and the Jack polynomials by the MacDonald ones. The problem with extra poles in individual Nekrasov functions continues to exist, therefore, such a proof works only for β = 1, i.e. for q = t in MacDonald's notation. For β = 1 the conformal blocks are related in this way to a non-Nekrasov decomposition of the LMNS partition function into a double sum over Young diagrams. * Lebedev Physics Institute and ITEP

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Characteristic Classes and Hitchin Systems. General Construction

Levin

Olshanetsky

Smirnov

et al. 2012

Commun. Math. Phys.

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We consider topologically non-trivial Higgs bundles over elliptic curves with marked points and construct corresponding integrable systems. In the case of one marked point we call them the modified Calogero-Moser systems (MCM systems). Their phase space has the same dimension as the phase space of the standard CM systems with spin, but less number of particles and greater number of spin variables. Topology of the holomorphic bundles are defined by their characteristic classes. Such bundles occur if G has a non-trivial center, i.e. classical simply-connected groups, E 6 and E 7 . We define the conformal version CG of G -an analog of GL(N) for SL(N), and relate the characteristic classes with degrees of CGbundles. Starting with these bundles we construct Lax operators, quadratic Hamiltonians, define the phase spaces and the Poisson structure using dynamical r-matrices. To describe the systems we use a special basis in the Lie algebras that generalizes the basis of t'Hooft matrices for sl(N). We find that the MCM systems contain the standard CM systems related to some (unbroken) subalgebras. The configuration space of the CM particles is the moduli space of the holomorphic bundles with non-trivial characteristic classes.

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Towards the Proof of AGT Relations with the Help of the Generalized Jack Polynomials

Морозов¹,

Smirnov

2014

Lett Math Phys

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Original proofs of the AGT relations with the help of the Hubbard-Stratanovich duality of the modified Dotsenko-Fateev matrix model did not work for β = 1, because Nekrasov functions were not properly reproduced by Selberg-Kadell integrals of Jack polynomials. We demonstrate that if the generalized Jack polynomials, depending on the N -ples of Young diagrams from the very beginning, are used instead of the N -linear combinations of ordinary Jacks, this resolves the problem. Such polynomials naturally arise as special elements in the equivariant cohomologies of the GL(N )-instanton moduli spaces, and this also establishes connection to alternative ABBFLT approach to the AGT relations, studying the action of chiral algebras on the instanton moduli spaces. In this paper we describe a complete proof of AGT in the simple case of GL(2) (N = 2) Yang-Mills theory, i.e. the 4-point spherical conformal block of the Virasoro algebra.

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Andrey Smirnov

Superpolynomials for torus knots from evolution induced by cut-and-join operators

Proving AGT conjecture as HS duality: Extension to five dimensions

Characteristic Classes and Hitchin Systems. General Construction

Towards the Proof of AGT Relations with the Help of the Generalized Jack Polynomials

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