Knots, Perturbative Series and Quantum Modularity
Abstract
We introduce an invariant of a hyperbolic knot which is a map from to matrices with entries in and with rows and columns indexed by the boundary parabolic representations of the fundamental group of the knot. These matrix invariants have a rich structure: (a) their entry, where is the trivial and the geometric representation, is the power series expansion of the Kashaev invariant of the knot around the root of unity as an element of the Habiro ring, and the remaining entries belong to generalized Habiro rings of number fields; (b) the first column is given by the perturbative power series of Dimofte-Garoufalidis; (c) the columns of are fundamental solutions of a linear -difference equation; (d) the matrix defines an -cocycle in matrix-valued functions on that conjecturally extends to a smooth function on and even to holomorphic functions on suitable complex cut planes, lifting the factorially divergent series to actual functions. The two invariants and are related by a refined quantum modularity conjecture which we illustrate in detail for the three simplest hyperbolic knots, the , and pretzel knots. This paper has two sequels, one giving a different realization of our invariant as a matrix of convergent -series with integer coefficients and the other studying its Habiro-like arithmetic properties in more depth.
Cite
@article{arxiv.2111.06645,
title = {Knots, Perturbative Series and Quantum Modularity},
author = {Stavros Garoufalidis and Don Zagier},
journal= {arXiv preprint arXiv:2111.06645},
year = {2024}
}