A generalization of the Witten conjecture through spectral curve

Abstract: We propose a generalization of the Witten conjecture, which connects a descendent enumerative theory with a specific reduction of KP integrable hierarchy. Our conjecture is realized by two parts: Part I (Geometry) establishes a correspondence between the descendent potential function (apart from ancestors) and the topological recursion of specific spectral curve data $(\Sigma, x,y,B)$; Part II (Integrability) claims that the TR descendent potential, defined at the boundary points of the spectral curve (where $dx$ has poles), is a tau function of a certain reduction of the multi-component KP hierarchy. In this paper, we show the geometry part for any formal descendent theory by using a generalized Laplace transform, and show the integrability part for the one-boundary cases. As applications, we generalize and prove the $r$KdV integrability of negative $r$-spin theory conjectured by Chidambaram, Garcia-Falide and Giacchetto [6], and prove the KdV integrability for the theory associated with the Weierstrass curve introduced by Dubrovin.