Tropical analytic geometry, Newton polygons, and tropical intersections
Copyright policy )Tropical analytic geometry, Newton polygons, and tropical intersections
In this paper we use the connections between tropical algebraic geometry and rigid analytic geometry in order to prove two main results. We use tropical methods to prove a theorem about the Newton polygon for convergent power series in several variables: if f_1,...,f_n are n convergent power series in n variables with coefficients in a non-Archimedean field K, we give a formula for the valuations and multiplicities of the common zeros of f_1,...,f_n. We use rigid-analytic methods to show that stable complete intersections of tropical hypersurfaces compute algebraic multiplicities even when the intersection is not tropically proper. These results are naturally formulated and proved using the theory of tropicalizations of rigid-analytic spaces, as introduced by Einsiedler-Kapranov-Lind [EKL06] and Gubler [Gub07b]. We have written this paper to be as readable as possible both to tropical and arithmetic geometers.
46 pages, 11 figures
- Harvard University United States
Mathematics(all), Mathematics - Number Theory, 14G22, 14G20, Newton polygon, Non-Archimedean geometry, Mathematics - Algebraic Geometry, Tropical geometry, Tropical intersection theory, tropical geometry, tropical intersection theory, FOS: Mathematics, non-archimedean geometry, Number Theory (math.NT), Algebraic Geometry (math.AG)
Mathematics(all), Mathematics - Number Theory, 14G22, 14G20, Newton polygon, Non-Archimedean geometry, Mathematics - Algebraic Geometry, Tropical geometry, Tropical intersection theory, tropical geometry, tropical intersection theory, FOS: Mathematics, non-archimedean geometry, Number Theory (math.NT), Algebraic Geometry (math.AG)
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