Around spin Hurwitz numbers

Abstract

We present a review of the spin Hurwitz numbers, which count the ramified coverings with spin structures. They are related to peculiar Q Schur functions, which are actually related to characters of the Sergeev group. This allows one to put the whole story into the modern context of matrix models and integrable hierarchies. Hurwitz partition functions are actually broader than conventional $\\tau$-functions, but reduce to them in particular circumstances. We explain, how a special $d$-soliton tau functions of KdV and Veselov-Novikov hierachies generate the spin Hurwitz numbers $H^\\pm\\left( \\Gamma^r_d \\right)$ and $H^\\pm\\left( \\Gamma^r_d,\\Delta \\right)$. The generating functions of the spin Hurwitz numbers are hypergeometric $\\tau$-functions of the BKP integrable hierarchy, and we present their fermionic realization. We also explain how one can construct $\\tau$-functions of this type entirely in terms of the $Q$ Schur functions.