رکورد قبلیرکورد بعدی

" Nonlinear Analysis on Manifolds. Monge-Ampère Equations "


Document Type : BL
Record Number : 573339
Doc. No : b402558
Main Entry : Aubin, Thierry.
Title & Author : Nonlinear Analysis on Manifolds. Monge-Ampère Equations\ by Thierry Aubin.
Publication Statement : New York, NY :: Springer New York,, 1982.
Series Statement : Grundlehren der mathematischen Wissenschaften, A Series of Comprehensive Studies in Mathematics,; 252
ISBN : 9781461257349
: : 9781461257363
Contents : 1 Riemannian Geometry -- {sect}1. Introduction to Differential Geometry -- {sect}2. Riemannian Manifold -- {sect}3. Exponential Mapping -- {sect}4. The Hopf-Rinow Theorem -- {sect}5. Second Variation of the Length Integral -- {sect}6. Jacobi Field -- {sect}7. The Index Inequality -- {sect}8. Estimates on the Components of the Metric Tensor -- {sect}9. Integration over Riemannian Manifolds -- {sect}10. Manifold with Boundary -- {sect}11. Harmonic Forms -- 2 Sobolev Spaces -- {sect}1. First Definitions -- {sect}2. Density Problems -- {sect}3. Sobolev Imbedding Theorem -- {sect}4. Sobolev's Proof -- {sect}5. Proof by Gagliardo and Nirenberg -- {sect}6. New Proof -- {sect}7. Sobolev Imbedding Theorem for Riemannian Manifolds -- {sect}8. Optimal Inequalities -- {sect}9. Sobolev's Theorem for Compact Riemannian Manifolds with Boundary -- {sect}10. The Kondrakov Theorem -- {sect}11. Kondrakov's Theorem for Riemannian Manifolds -- {sect}12. Examples -- {sect}13. Improvement of the Best Constants -- {sect}14. The Case of the Sphere -- {sect}15. The Exceptional Case of the Sobolev Imbedding Theorem -- {sect}16. Moser's Results -- {sect}17. The Case of the Riemannian Manifolds -- {sect}18. Problems of Traces -- 3 Background Material -- {sect}1. Differential Calculus -- {sect}2. Four Basic Theorems of Functional Analysis -- {sect}3. Weak Convergence. Compact Operators -- {sect}4. The Lebesgue Integral -- {sect}5. The LpSpaces -- {sect}6. Elliptic Differential Operators -- {sect}7. Inequalities -- {sect}8. Maximum Principle -- {sect}9. Best Constants -- 4 Green's Function for Riemannian Manifolds -- {sect}1. Linear Elliptic Equations -- {sect}2. Green's Function of the Laplacian -- 5 The Methods -- {sect}1. Yamabe's Equation -- {sect}2. Berger's Problem -- {sect}3. Nirenberg's Problem -- 6 The Scalar Curvature -- {sect}1. The Yamabe Problem -- {sect}2. The Positive Case -- {sect}3. Other Problems -- 7 Complex Monge-Ampere Equation on Compact Kähler Manifolds -- {sect}1. Kähler Manifolds -- {sect}2. Calabi's Conjecture -- {sect}3. Einstein-Kähler Metrics -- {sect}4. Complex Monge-Ampere Equation -- {sect}5. Theorem of Existence (the Negative Case) -- {sect}6. Existence of Kähler-Einstein Metric -- {sect}7. Theorem of Existence (the Null Case) -- {sect}8. Proof of Calabi's Conjecture -- {sect}9. The Positive Case -- {sect}10. A Priori Estimate for ?? -- {sect}11. A Priori Estimate for the Third Derivatives of Mixed Type -- {sect}12. The Method of Lower and Upper Solutions -- 8 Monge-Ampère Equations -- {sect}1. Monge-Ampère Equations on Bounded Domains of ?n -- {sect}2. The Estimates -- {sect}3. The Radon Measure ?(?) -- {sect}4. The Functional ? (?) -- {sect}5. Variational Problem -- {sect}6. The Complex Monge-Ampère Equation -- {sect}7. The Case of Radially Symmetric Functions -- {sect}8. A New Method -- Notation.
Abstract : This volume is intended to allow mathematicians and physicists, especially analysts, to learn about nonlinear problems which arise in Riemannian Geometry. Analysis on Riemannian manifolds is a field currently undergoing great development. More and more, analysis proves to be a very powerful means for solving geometrical problems. Conversely, geometry may help us to solve certain problems in analysis. There are several reasons why the topic is difficult and interesting. It is very large and almost unexplored. On the other hand, geometric problems often lead to limiting cases of known problems in analysis, sometimes there is even more than one approach, and the already existing theoretical studies are inadequate to solve them. Each problem has its own particular difficulties. Nevertheless there exist some standard methods which are useful and which we must know to apply them. One should not forget that our problems are motivated by geometry, and that a geometrical argument may simplify the problem under investigation. Examples of this kind are still too rare. This work is neither a systematic study of a mathematical field nor the presentation of a lot of theoretical knowledge. On the contrary, I do my best to limit the text to the essential knowledge. I define as few concepts as possible and give only basic theorems which are useful for our topic. But I hope that the reader will find this sufficient to solve other geometrical problems by analysis.
Subject : Mathematics.
Subject : Matrix theory.
Added Entry : SpringerLink (Online service)
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