Noncommutative Geometry and Conformal Geometry. I. Local Index Formula and Conformal Invariants

TL;DR

This paper advances noncommutative and conformal geometry by reformulating the local index formula to include conformal diffeomorphisms and constructing new conformal invariants using noncommutative tools.

Contribution

It introduces a reformulation of the local index formula in conformal geometry and constructs new geometric conformal invariants related to conformal diffeomorphisms.

Findings

Reformulated local index formula accounting for conformal diffeomorphisms

Constructed new family of conformal invariants

Established conformal invariance of the Connes-Chern character

Abstract

This paper is part of a series of articles on noncommutative geometry and conformal geometry. In this paper, we reformulate the local index formula in conformal geometry in such a way to take into account of the action of conformal diffeomorphisms. We also construct and compute a whole new family of geometric conformal invariants associated with conformal diffeomorphisms. This includes conformal invariants associated with equivariant characteristic classes. The approach of this paper involves using various tools from noncommutative geometry, such as twisted spectral triples and cyclic theory. An important step is to establish the conformal invariance of the Connes-Chern character of the conformal Dirac spectral triple of Connes-Moscovici. Ultimately, however, the main results of the paper are stated in a purely differential-geometric fashion.