A higher-dimensional Van den Essen type formula for projective foliations and applications
Abstract
Let F be a one-dimensional holomorphic foliation on Pn such that W⊂ Sing(F), where W is a smooth complete intersection variety. We determine and compute the variation of the Milnor number μ(F, W) under blowups, which depends on the vanishing order of the pullback foliation along the exceptional divisor, as well as on numerical and topological invariants of W. This represents a higher-dimensional version of Van den Essen's formula for projective foliations of dimension one. As an application, we obtain a lower bound for the Milnor number of the foliation. Also, we use this formula to show that for a foliation on Pn that is singular along a smooth curve, there exists a finite number of blow-ups with centers on smooth curves such that the induced foliation has multiplicity equal to 1 and that for generic points of the curves in the final stage, the singularities are elementary. Moreover, we obtain a bound on the maximum number of blow-ups needed to resolve the foliation, depending on the numerical and topological invariants of the curve.
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