Elliptic Carleman Estimates and Applications to Stabilization and Controllability, Volume II General Boundary Conditions on Riemannian Manifolds

Synopsis

This monograph explores applications of Carleman estimates in the study of stabilization and controllability properties of partial differential equations, including quantified unique continuation, logarithmic stabilization of the wave equation, and null-controllability of the heat equation.  Where the first volume derived these estimates in regular open sets in Euclidean space and Dirichlet boundary conditions, here they are extended to Riemannian manifolds and more general boundary conditions.The book begins with the study of Lopatinskii-Sapiro boundary conditions for the Laplace-Beltrami operator, followed by derivation of Carleman estimates for this operator on Riemannian manifolds.  Applications of Carleman estimates are explored next: quantified unique continuation issues, a proof of the logarithmic stabilization of the boundary-damped wave equation, and a spectral inequality with general boundary conditions to derive the null-controllability result for the heat equation. Two additional chapters consider some more advanced results on Carleman estimates.  The final part of the book is devoted to exposition of some necessary background material: elements of differential and Riemannian geometry, and Sobolev spaces and Laplace problems on Riemannian manifolds.

Book details

Edition:

1st ed. 2022

Series:

Progress in Nonlinear Differential Equations and Their Applications (Book 98)

Author:

Jérôme Le Rousseau, Gilles Lebeau, Luc Robbiano

ISBN:

9783030886707

Related ISBNs:

9783030886691

Publisher:

Springer International Publishing

Pages:

N/A

Reading age:

Not specified

Includes images:

Yes

Date of addition:

2022-04-23

Usage restrictions:

Copyright

Copyright date:

2022

Copyright by:

The Editor 

Adult content:

No

Language:

English

Categories:

Mathematics and Statistics, Nonfiction, Science