A Quantum Gauss-Bonnet Theorem
Loading...
Files
Date
2015-05
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
The Ohio State University
Abstract
In [4], Lanzat and Polyak introduced a polynomial invariant of generic curves in the plane as a quantization of Hopf’s Umlaufsatz, and showed that Arnold’s J+ invariant could be derived from their polynomial, leading to an integral formula for J+. Here we extend their invariant to the case of ho- mologically trivial generic curves in closed oriented surfaces with Riemannian metric. The resulting invariant turns out to be a quantization of a new formula for the rotation number, which can be viewed as a form of the Gauss-Bonnet Theorem. We show that J+ can be calculated from the generalized invariant when the Euler characteristic of the surface is nonzero, thereby obtaining an integral formula for J+ for homologically trivial curves in oriented surfaces with nonzero Euler characteristic.
Description
Keywords
mathematics, differential geometry, low-dimensional geometry, geometric topology