Weighted Sobolev Space and Hyperbolic Laplacian Equations I

Abstract

In this paper, the following problem in the hyperbolic space BN will be considered equation* -BN u=f(x,u), in \ BN.(1) equation* where, BN denotes the Laplace Beltrami operator on BN. And this problem can be converted into the following Euclidean problem equation* cases -div(K(x) ∇ u)=4 K(x)NN-2f(x,u), &in \ BN, \\ u(0)=0, &on\ ∂BN, cases(2) equation* where, K(x):=1/(1-|x|2)N-2. Then, the existence of solution of problem (1) can be obtained by studying the existence of solution of problem (2). We will equip problem (2) with a weighted Sobolev space and prove the compact embedding theorem and the concentration compactness principle for the weighted Sobolev space. And we will prove that the maximum principle holds for the operator -div(K(x) ∇ u). When f(x,u)=|u|2*-2 u+λ uq-2u, λ>0, 1<q<2, using the variational method, the compact embedding theorem, the concentration compactness principle and the maximum principle, the existence of nonradial solutions of problem (2) will be obtained.

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