Dehn surgery and hyperbolic knot complements without hidden symmetries

Eric Chesebro, Jason Deblois, Neil R Hoffman, Christian Millichap, Priyadip Mondal, William Worden

Published 2020-09-30Version 1

Neumann and Reid conjecture that there are exactly three knot complements which admit hidden symmetries. This paper establishes several results that provide evidence for the conjecture. Our main technical tools provide obstructions to having infinitely many fillings of a cusped manifold produce knot complements admitting hidden symmetries. Applying these tools, we show for any two-bridge link complement, at most finitely many fillings of one cusp can be covered by knot complements admitting hidden symmetries. We also show that the figure-eight knot complement is the unique knot complement with volume less than $6v_0 \approx 6.0896496$ that admits hidden symmetries, and conclude with two independent proofs that the two-bridge link complement $\mathbb{S}^3\setminus 6^2_2$ admits no fillings covered by knot complements with hidden symmetries. Each of these proofs shows that the technical tools established earlier can be made effective.