An iterative method for the solution of Laplace-like equations in high and very high space dimensions

Abstract

This paper deals with the equation - u+μ u=f on high-dimensional spaces Rm, where the right-hand side f(x)=F(Tx) is composed of a separable function F with an integrable Fourier transform on a space of a dimension n>m and a linear mapping given by a matrix T of full rank and μ≥ 0 is a constant. For example, the right-hand side can explicitly depend on differences xi-xj of components of x. We show that the solution of this equation can be expanded into sums of functions of the same structure and develop in this framework an equally simple and fast iterative method for its computation. The method is based on the observation that in almost all cases and for large problem classes the expression \|Tty\|2 deviates on the unit sphere \|y\|=1 the less from its mean value the higher the dimension m is, a concentration of measure effect. The higher the dimension m, the faster the iteration converges.