Dimension of spaces of solutions of the Schrodinger equation on noncompact riemannian manifolds

Let be a smooth connected noncompact Riemannian manifold, Δ the Laplace - Beltrami operator on 𝑀, 𝑞(𝑥) a smooth nonnegative function on 𝑀, not identically zero. Considering the Schrodinger equation on 𝑀, Δ𝑢 - 𝑞(𝑥)𝑢 = 0, we ask the following question: For what manifold and potentials 𝑞(𝑥) does this equation have a unique solutions = 0? If this is the case we say that Liouville’s theorem is true for Schrodinger equation. We say that is 𝑞-harmonic function if it satisfies the Schrodinger equation. The classical Liouville theorem says that any bounded harmonic function in is identically constant. We note that recently there has been a trend towards a more general approach to theorems of Liouville type, namely, they are estimated dimensionality of various solution spaces of linear equations elliptic type. In particular, Grigor’yan (1990) proved an exact estimate dimensionality of spaces of bounded harmonic functions on non-compact Riemannian manifolds in terms of massive sets. The aim of this paper is to prove a similar result for bounded solutions of the stationary equation Schrodinger. Dimensions of spaces of harmonic functions and 𝑞-harmonic functions has been studied in numerous articles for various classes of manifolds. Among them are the works of M.T. Anderson, T.H. Colding, A. Grigor’yan, P. Li, A.G. Losev, L.-F. Tam, D. Sullivan, S.-T. Yau and many other authors. In contrast to the mentioned articles (and many others), we do not restrict the manifold a priori in any way. Let 𝐿𝐵(𝑀) be the space of bounded 𝑞-harmonic functions on 𝑀. We define 𝑞-massive subsets of and prove that 𝐿𝐵(𝑀) is equal to the maximal number of pairwise non-intersecting 𝑞-massive subsets of 𝑀. We now state the exact formulations. A continuous function defined on some open set Ω ⊂ is called 𝑞- subharmonic if for every domain b Ω and a 𝑞-harmonic function ∈ 𝐶(𝐺), 𝑢|𝜕𝐺 = 𝑣|𝜕𝐺implies ≤ in 𝐺. An open proper subset Ω ⊂ is called 𝑞-massive if there is a non-trival 𝑞-subharmonic function ∈ 𝐶(Ω) such that 𝑢|𝜕Ω = 0, 0 ≤ ≤ 1. The main result of the paper is the following statement. Theorem. Let ≥ 1 be a natural number. The following statements are equivalent: 1) dim𝐿𝐵(𝑀) ≥ 𝑚; 2) there exist pairwise non-intersection 𝑞-massive subsets of 𝑀. Note that in the case 𝑞(𝑥) ≡ 0, this assertion is true only for ≥ 2.