A universal characteristic class for vector bundles with a connection

Abstract

In the paper I introduce a new characteristic class c(E) for a finite rank vector bundle E on an affine scheme S:=Spec(A) - the fundamental class of E. The class c(E) is not a characteristic class in the classical sense in the sense that it lives in a pointed cohomology torsor Ext1(L, EndA(E)). Most characteristic classes lives in a cohomology group. The pointed cohomology torsor Ext1(L, EndA(E)) is a torsor on the abelian group H2(L, Z(EndA(E))) where Z(EndA(E)) is the center of the ring of endomorphisms of E and where the cohomology is the Lie-Rinehart cohomology of the center. The class c(E) is trivial if and only if E has a flat algebraic connection. Hence the class c(TS) where TS is the tangent bundle, is an an obstruction for S to be algebraically parallelizable. I use a connection ∇ to define c(E) and I also prove the class c(E) is independent of choice of connection, hence c(E) is an invariant of the vector bundle E. The class generalize the Chern class, the Pontryagin class, the Euler class and the Teleman characteristic class. I prove using an explicit example that the class c(E) is stronger than the Chern class and the Euler class. I also give a new proof of a formula for the curvature of a connection ∇ in terms of an idempotent endomorphism φ defining E. This formula was claimed and proved in a paper put out on the arXiv in 2011, and in this paper I give a new proof that is easier to read. The class may be interesting in the study of the "cancellation problem" in affine algebraic geometry and the problem of giving algebraic formulas for the topological Euler characteristic. I also calculate the algebraic deRham cohomology of the complex two sphere and prove it is infinite dimensional.

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