Uniqueness and Stability in the Cauchy Problem

  • Victor Isakov
Part of the Applied Mathematical Sciences book series (AMS, volume 127)

Abstract

In this chapter we formulate and in many cases prove results on uniqueness and stability of solutions of the Cauchy problem for general partial differential equations. One of the basic tools is Carleman-type estimates. In Section 3.1 we describe the results for a simplest problem of this kind (the backward parabolic equation), where a choice of the weight function in Carleman estimates is obvious, and the method is equivalent to that of logarithmic convexity. In Section 3.2 we formulate general conditional Carleman estimates, and we apply the results to the general Cauchy problem. We also formulate a global version of Holmgren’s theorem and the recent result of Tataru on nonanalytic equations. In Section 3.3 we consider elliptic and parabolic equations of second order, construct for them pseudoconvex weight functions and obtain complete and general uniqueness and stability results for the Cauchy problem. Section 3.4 is devoted to substantially less understood hyperbolic equations and Schrödinger-type equations. Here, for some particular but interesting domains we also give appropriate weight functions and obtain a quite explicit description of uniqueness domains for lateral Cauchy problems. Additional information to Sections 3.2–3.4 can be found in the book of Zuily [Z].

Keywords

Cauchy Problem Parabolic Equation Hyperbolic Equation Schrodinger Equation Lateral Boundary Condition 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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Copyright information

© Springer Science+Business Media New York 1998

Authors and Affiliations

  • Victor Isakov
    • 1
  1. 1.Department of Mathematics and StatisticsThe Wichita State UniversityWichitaUSA

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