Multiplicity estimates, analytic cycles and Newton polytopes
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We consider the problem of estimating the multiplicity of a polynomial when restricted to the smooth analytic trajectory of a (possibly singular) polynomial vector field at a given point or points, under an assumption known as the D-property. Nesterenko has developed an elimination theoretic approach to this problem which has been widely used in transcendental number theory. We propose an alternative approach to this problem based on more local analytic considerations. In particular we obtain simpler proofs to many of the best known estimates, and give more general formulations in terms of Newton polytopes, analogous to the Bernstein-Kushnirenko theorem. We also improve the estimate's dependence on the ambient dimension from doubly-exponential to an essentially optimal single-exponential.
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Counting Theorems for Algebraic Relations
The authors prove that for certain differential equation trajectories in C^n, all intersections with algebraic varieties of dimension k < sqrt(n)-1 lie in polynomially many balls of radius e^{-T}.
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