Le, Nam Q.

Dynamical and Geometric Aspects of Hamilton-Jacobi and Linearized Monge-Ampère Equations VIASM 2016 / [electronic resource] : by Nam Q. Le, Hiroyoshi Mitake, Hung V. Tran ; edited by Hiroyoshi Mitake, Hung V. Tran. - 1st ed. 2017. - VII, 228 p. 16 illus., 1 illus. in color. online resource. - Lecture Notes in Mathematics, 2183 0075-8434 ; . - Lecture Notes in Mathematics, 2183 .

Consisting of two parts, the first part of this volume is an essentially self-contained exposition of the geometric aspects of local and global regularity theory for the Monge–Ampère and linearized Monge–Ampère equations. As an application, we solve the second boundary value problem of the prescribed affine mean curvature equation, which can be viewed as a coupling of the latter two equations. Of interest in its own right, the linearized Monge–Ampère equation also has deep connections and applications in analysis, fluid mechanics and geometry, including the semi-geostrophic equations in atmospheric flows, the affine maximal surface equation in affine geometry and the problem of finding Kahler metrics of constant scalar curvature in complex geometry. Among other topics, the second part provides a thorough exposition of the large time behavior and discounted approximation of Hamilton–Jacobi equations, which have received much attention in the last two decades, and a new approach to the subject, the nonlinear adjoint method, is introduced. The appendix offers a short introduction to the theory of viscosity solutions of first-order Hamilton–Jacobi equations. .


10.1007/978-3-319-54208-9 doi

Partial differential equations.
Calculus of variations.
Differential geometry.
Partial Differential Equations.
Calculus of Variations and Optimal Control; Optimization.
Differential Geometry.


The Institute of Mathematical Sciences, Chennai, India

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