Topological recursion for Kadomtsev–Petviashvili tau functions of hypergeometric type

Bychkov, Boris; Dunin‐Barkowski, Petr; Kazarian, Maxim; Shadrin, Sergey

doi:10.1112/jlms.12946

Journal of London Math Soc

2024

DOI: 10.1112/jlms.12946

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Topological recursion for Kadomtsev–Petviashvili tau functions of hypergeometric type

Boris Bychkov,

Petr Dunin‐Barkowski,

Maxim Kazarian

et al.

Abstract: We study the ‐point differentials corresponding to Kadomtsev–Petviashvili (KP) tau functions of hypergeometric type (also known as Orlov–Scherbin partition functions), with an emphasis on their ‐deformations and expansions. Under the naturally required analytic assumptions, we prove certain higher loop equations that, in particular, contain the standard linear and quadratic loop equations, and thus imply the blobbed topological recursion. We also distinguish two large families of the Orlov–Scherbin partition f… Show more

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2024

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Cited by 5 publications

References 90 publications

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Topological recursion on transalgebraic spectral curves and Atlantes Hurwitz numbers

Bouchard,

Kramer,

Weller

2024

Journal of Geometry and Physics

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Topological recursion on transalgebraic spectral curves and Atlantes Hurwitz numbers

Bouchard,

Kramer,

Weller

2024

Journal of Geometry and Physics

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Topological recursion, symplectic duality, and generalized fully simple maps

Alexandrov,

Bychkov,

Dunin-Barkowski

et al. 2024

Journal of Geometry and Physics

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Symplectic duality for topological recursion

Bychkov,

Dunin-Barkowski,

Kazarian

et al. 2024

Trans. Amer. Math. Soc.

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We consider weighted double Hurwitz numbers, with the weight given by arbitrary rational function times an exponent of the completed cycles. Both special singularities are arbitrary, with the lengths of cycles controlled by formal parameters (up to some maximal length on both sides), and on one side there are also distinguished cycles controlled by degrees of formal variables. In these variables the weighted double Hurwitz numbers are presented as coefficients of expansions of some differentials that we prove to satisfy topological recursion. Our results partly resolve a conjecture that we made in [Comm. Math. Phys. 402 (2023), pp. 665–694] and are based on a system of new explicit functional relations for the more general ( m , n ) (m,n) -correlation functions, which correspond to the case when there are distinguished cycles controlled by formal variables in both special singular fibers. These ( m , n ) (m,n) -correlation functions are the main theme of this paper and the latter explicit functional relations are of independent interest for combinatorics of weighted double Hurwitz numbers. We also put our results in the context of what we call the “symplectic duality”, which is a generalization of the x − y x-y duality, a phenomenon known in the theory of topological recursion.

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Topological recursion for Kadomtsev–Petviashvili tau functions of hypergeometric type

Cited by 5 publications

References 90 publications

Topological recursion on transalgebraic spectral curves and Atlantes Hurwitz numbers

Topological recursion on transalgebraic spectral curves and Atlantes Hurwitz numbers

Topological recursion, symplectic duality, and generalized fully simple maps

Symplectic duality for topological recursion

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