Quantum trace map for 3-manifolds and a 'length conjecture'
Abstract
We introduce a quantum trace map for an ideally triangulated hyperbolic knot complement . The map assigns a quantum operator to each element of Kauffmann Skein module of the 3-manifold. The quantum operator lives in a module generated by products of quantized edge parameters of the ideal triangulation modulo some equivalence relations determined by gluing equations. Combining the quantum map with a state-integral model of Chern-Simons theory, one can define perturbative invariants of knot in the knot complement whose leading part is determined by its complex hyperbolic length. We then conjecture that the perturbative invariants determine an asymptotic expansion of the Jones polynomial for a link composed of and . We propose the explicit quantum trace map for figure-eight knot complement and confirm the length conjecture up to the second order in the asymptotic expansion both numerically and analytically.
Keywords
Cite
@article{arxiv.2203.15985,
title = {Quantum trace map for 3-manifolds and a 'length conjecture'},
author = {Prarit Agarwal and Dongmin Gang and Sangmin Lee and Mauricio Romo},
journal= {arXiv preprint arXiv:2203.15985},
year = {2022}
}
Comments
31 pages, 7 figures