Functions of Least Gradient

This book is devoted to the least gradient problem and its variants. The least gradient problem concerns minimization of the total variation of a function with prescribed values on the boundary of a Lipschitz domain. It is the model problem for studying minimization problems involving functionals with linear growth. Functions which solve the least gradient problem for their own boundary data, which arise naturally in the study of minimal surfaces, are called functions of least gradient.

The main part of the book is dedicated to presenting the recent advances in this theory. Among others are presented an EulerLagrange characterization of least gradient functions, an anisotropic counterpart of the least gradient problem motivated by an inverse problem in medical imaging, and state-of-the-art results concerning existence, regularity, and structure of solutions. Moreover, the authors present a surprising connection between the least gradient problem and the MongeKantorovich optimal transport problem and some of its consequences, and discuss formulations of the least gradient problem in the nonlocal and metric settings. Each chapter is followed by a discussion section concerning other research directions, generalizations of presented results, and presentation of some open problems.

The book is intended as an introduction to the theory of least gradient functions and a reference tool for a general audience in analysis and PDEs. The readers are assumed to have a basic understanding of functional analysis and partial differential equations. Apart from this, the text is self-contained, and the book ends with five appendices on functions of bounded variation, geometric measure theory, convex analysis, optimal transport, and analysis in metric spaces.

Stands out as the first book on least gradient functions Presents both classic and new results on this topic Features open problems

Auteur
Wojciech Górny graduated from the University of Warsaw. Currently, he is a senior postdoc at the University of Vienna. He works primarily in calculus of variations, functional analysis, and partial differential equations.
José M. Mazón is a professor emeritus of the Department of Mathematical Analysis at the University of Valencia. His main field of research are nonlinear partial differential equations.

Contenu

Least Gradient Problem and Minimal Surfaces.- Existence and Characterization of Weak Solutions.- Anisotropic Least Gradient Problem.- Duality Approach.- Existence of Solutions in the Trace Sense.- Uniqueness and Structure of Solutions.- Regularity of Solutions.