A Calculus for Finite Parts and Residues of some Divergent Complex Geometric Integrals

Abstract

We consider divergent integrals ∫X ω of certain forms ω on a reduced pure-dimensional complex space X. The forms ω are singular along a subvariety defined by the zero set of a holomorphic section s of some holomorphic vector bundle E. Equipping E with a smooth Hermitian metric allows us to define a finite part fp\,∫X ω of the divergent integral as the action of a certain current extension of ω. We introduce a current calculus to compute finite parts for a special class of ω. Our main result is a formula that decomposes the finite part of such an ω into sums of products of explicit currents. Lastly, we show that, in principle, it is possible to reduce the computation of fp\,∫X ω for a general ω to this class.

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