Sistema Bibliotecario de la Universidad de Quintana Roo Koha › Detalles de: An Introduction to the Khler-Ricci Flow

An Introduction to the Khler-Ricci Flow [electronic resource] / edited by Sebastien Boucksom, Philippe Eyssidieux, Vincent Guedj.

Por: Boucksom, Sebastien [editor.]Colaborador(es): Eyssidieux, Philippe [editor.] | Guedj, Vincent [editor.]Tipo de material: Texto

TextoSeries Lecture Notes in Mathematics, 2086Editor: Cham : Springer International Publishing : Imprint: Springer, 2013Descripción: VIII, 333 p. 10 illus. online resourceTipo de contenido: text Tipo de medio: computer Tipo de portador: online resourceISBN: 9783319008196Trabajos contenidos: SpringerLink (Online service)Tema(s): Mathematics | Differential equations, partial | Global differential geometry | Mathematics | Several Complex Variables and Analytic Spaces | Partial Differential Equations | Differential GeometryFormatos físicos adicionales: Sin títuloClasificación CDD: 515.94 Clasificación LoC:QA331.7Recursos en línea: de clik aquí para ver el libro electrónico

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Springer eBooksResumen: This volume collects lecture notes from courses offered at several conferences and workshops, and provides the first exposition in book form of the basic theory of the Khler-Ricci flow and its current state-of-the-art. While several excellent books on Khler-Einstein geometry are available, there have been no such works on the Khler-Ricci flow. The book will serve as a valuable resource for graduate students and researchers in complex differential geometry, complex algebraic geometry and Riemannian geometry, and will hopefully foster further developments in this fascinating area of research. The Ricci flow was first introduced by R. Hamilton in the early 1980s, and is central in G. Perelmans celebrated proof of the PoincarȨ conjecture. When specialized for Khler manifolds, it becomes the Khler-Ricci flow, and reduces to a scalar PDE (parabolic complex Monge-Ampȿre equation). As a spin-off of his breakthrough, G. Perelman proved the convergence of the Khler-Ricci flow on Khler-Einstein manifolds of positive scalar curvature (Fano manifolds). Shortly after, G. Tian and J. Song discovered a complex analogue of Perelmans ideas: the Khler-Ricci flow is a metric embodiment of the Minimal Model Program of the underlying manifold, and flips and divisorial contractions assume the role of Perelmans surgeries

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The (real) theory of fully non linear parabolic equations -- The KRF on positive Kodaira dimension Khler manifolds -- The normalized Khler-Ricci flow on Fano manifolds -- Bibliography.

This volume collects lecture notes from courses offered at several conferences and workshops, and provides the first exposition in book form of the basic theory of the Khler-Ricci flow and its current state-of-the-art. While several excellent books on Khler-Einstein geometry are available, there have been no such works on the Khler-Ricci flow. The book will serve as a valuable resource for graduate students and researchers in complex differential geometry, complex algebraic geometry and Riemannian geometry, and will hopefully foster further developments in this fascinating area of research. The Ricci flow was first introduced by R. Hamilton in the early 1980s, and is central in G. Perelmans celebrated proof of the PoincarȨ conjecture. When specialized for Khler manifolds, it becomes the Khler-Ricci flow, and reduces to a scalar PDE (parabolic complex Monge-Ampȿre equation). As a spin-off of his breakthrough, G. Perelman proved the convergence of the Khler-Ricci flow on Khler-Einstein manifolds of positive scalar curvature (Fano manifolds). Shortly after, G. Tian and J. Song discovered a complex analogue of Perelmans ideas: the Khler-Ricci flow is a metric embodiment of the Minimal Model Program of the underlying manifold, and flips and divisorial contractions assume the role of Perelmans surgeries

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