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Published online by Cambridge University Press: 09 February 2010
In this chapter we take up the lead of ch.O, sec.4, with regard to elliptic and parabolic problems. There we applied the Fourier- Laplace method to free-space problems of elliptic equations, and to evolutionary half-space problems of the (parabolic) heat equation, all with constant coefficients. We covered Dirichlet and Neumann problems in a half-space, for elliptic equations.
With the tools developed in I, II, III, IV we now can give a similar “Fourier–Laplace treatment” to much more general variable coefficients elliptic and parabolic problems. This may be done in “free space” (that is, in ℝn, or on a smooth compact manifold ω or on a noncompact ω with conical ends – but without the presence of boundary points). Such results are special cases of theorems on Green inverses of ψdo's already discussed, but they will be summarized (in more general form) in sec.l, below. If ω is compact we need ellipticity, else md-ellipticity of the operator. Not only (md-) elliptic operators on a complex-valued function but even maps between crosssections of vector bundles are considered.
Note that there is a different approach – a functional analysis approach – to these theorems, not using ψdo's at all. Elliptic theory, in its beginnings, was developed for 2-nd order equations. Such 2-nd order theory is of dominating importance for many physical applications. The Laplace, Helmholtz and Schroedinger operator each has its own well developed theory.
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