Upper bounds of topology of complex polynomials in two variables
Abstract
The paper deals with a complex polynomial H in two variables having - a generic highest homogeneous part (without multiple zero lines), - nonconstant lower terms. In particular, under these conditions the polynomial H has at least two distinct critical values. We prove quantitative versions of this statement. Supposing H appropriately normalized (by affine coordinate changes in the image and in the source) we prove upper bounds for the following quantities: - the sum of the coefficients of the lower terms; - the minimal size of a bidisc containing all the nontrivial topology of a given level curve St=\ H=t\; - the minimal lengths of representatives of cycles in H1(St,) vanishing along appropriate paths from t to the critical values of H; - the intersection indices of the latter cycles. All these results (expect for the latter bound) are used in my joint work with Yu.S.Ilyashenko "Restricted version of the Hilbert 16-th problem" (available on the arxiv). In the latter paper we obtain an explicit upper bound of the number of zeros for a wide class of Abelian integrals.
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