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arxiv: 0901.3070 · v1 · submitted 2009-01-20 · 🧮 math.AG

Oblique poles of int_X| {f}| ^(2λ)| {g}|^(2μ) square

classification 🧮 math.AG
keywords monodromyfunctiongivenlambdaobliquesquarecitecompletely
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Existence of oblique polar lines for the meromorphic extension of the current valued function $\int |f|^{2\lambda}|g|^{2\mu}\square$ is given under the following hypotheses: $f$ and $g$ are holomorphic function germs in $\CC^{n+1}$ such that $g$ is non-singular, the germ $S:=\ens{\d f\wedge \d g =0}$ is one dimensional, and $g|_S$ is proper and finite. The main tools we use are interaction of strata for $f$ (see \cite{B:91}), monodromy of the local system $H^{n-1}(u)$ on $S$ for a given eigenvalue $\exp(-2i\pi u)$ of the monodromy of $f$, and the monodromy of the cover $g|_S$. Two non-trivial examples are completely worked out.

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