FAMED by computer: proving the Andersen-Kashaev volume conjecture for 42,000 knots
Abstract
The FAMED condition is a combinatorial property for ideal triangulations of 3-manifolds, which was introduced in 2024 by the first and last authors in order to study the Andersen--Kashaev volume conjecture. They notably proved that this conjecture is true for all FAMED geometric triangulations of one-cusped hyperbolic 3-manifolds with trivial second homology. In this paper, using a straightforward computer implementation in Regina and Snappy, we find FAMED geometric triangulations for more than 42.000 complements of knots in S3, including all knots with 12 crossings or fewer and all knots whose complement can be triangulated with 23 tetrahedra or fewer. As a consequence, the Andersen-Kashaev conjecture is now proven to be true for as many new examples. Along the way, we find several new insights about the FAMED property, which have great value in the quest of a general proof of the Andersen-Kashaev volume conjecture for every knot complement.
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