Asymptotics of quantum 6j-symbols and generalized hyperbolic tetrahedra

Abstract

We establish the geometry behind the quantum 6j-symbols under only the admissibility conditions as in the definition of the Turaev-Viro invariants of 3-manifolds. As a classification, we show that the 6-tuples in the quantum 6j-symbols give in a precise way to the dihedral angles of (1) a spherical tetrahedron, (2) a generalized Euclidean tetrahedron, (3) a generalized hyperbolic tetrahedron or (4) in the degenerate case the angles between four oriented straight lines in the Euclidean plane. We also show that for a large proportion of the cases, the 6-tuples always give the dihedral angles of a generalized hyperbolic tetrahedron and the exponential growth rate of the corresponding quantum 6j-symbols equals the suitably defined volume of this generalized hyperbolic tetrahedron. It is worth mentioning that the volume of a generalized hyperbolic tetrahedron can be negative, hence the corresponding sequence of the quantum 6j-symbols could decay exponentially. This is a phenomenon that has never been aware of before.