Tesis y Trabajos de Investigación PUCP

URI permanente para esta comunidadhttp://54.81.141.168/handle/123456789/6

El Repositorio Digital de Tesis y Trabajos de Investigación PUCP aporta al Repositorio Institucional con todos sus registros, organizados por grado: Doctorado, Maestría, Licenciatura y Bachillerato. Se actualiza permanentemente con las nuevas tesis y trabajos de investigación sustentados y autorizados, así como también con los que que fueron sustentados años atrás.
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    Minimal possible counterexamples to the two-dimensional Jacobian Conjecture
    (Pontificia Universidad Católica del Perú, 2019-06-12) Horruitiner Mendoza, Rodrigo Manuel; Valqui Hasse, Christian Holger
    Let K be an algebraically closed field of characteristic zero. The Jacobian Conjecture (JC) in dimension two stated by Keller in [8] says that any pair of polynomials P;Q ∈ L := K[x; y] with [P;Q] := axPayQ - axQayP ∈ Kx (a Jacobian pair ) defines an automorphism of L via x-> P and y -> Q. It turns out that the Newton polygons of such a pair of polynomials are closely related, and by analyzing them, much information can be obtained on conditions that a Jacobian pair must satisfy. Specifically, if there exists a Jacobian pair that does not define an automorphism (a counterexample) then their Newton polygons have to satisfy very restrictive geometric conditions. Based mostly on the work in [1], we present an algorithm to give precise geometrical descriptions of possible counterexamples. This means that, assuming (P;Q) is a counterexample to the Jacobian Conjecture with gcd(deg(P); deg(Q)) = k, we can generate the possible shapes of the Newton Polygon of P and Q and how it transforms under certain linear automorphisms. By analyzing the minimal possible counterexamples, we sketch a path to increase the lower bound of max(deg(P); deg(Q)) to 125 for a minimal possible counterexample to the Jacobian Conjecture.