Abstract
In previous chapters we proved that the famous result by Brezis and Nirenberg (see [46, 60, 114, 221]) for the Laplace equation continues to hold in the nonlocal setting of (14.2), provided that λ is not an eigenvalue of (− Δ) s . With respect to the classical Brezis–Nirenberg result, the resonant case in dimensions different from 4 s remains open, that is, the case where n ≠ 4 s and λ is an eigenvalue of the operator (−Δ) s with homogeneous Dirichlet boundary data. The aim of this chapter is to consider (14.2) in this setting because we thought that it would be interesting to check what happens in this case to verify whether the classical result known for the Laplacian can be extended to the nonlocal fractional framework. In this way, the study of the critical fractional Laplace problem (14.2) is completed. This chapter is based on the paper [197]. Main results The main result of this chapter is the following: Theorem 17.1 Let s ∈ (0, 1) , n > 2 s, and Ω be an open, bounded subset of R n with continuous boundary. Moreover, let λ be an eigenvalue of (− Δ ) s with homogeneous Dirichlet boundary data. Then problem (14.2) admits a nontrivial weak solution u ∈ ℍ 0 s (Ω) , provided that either • n > 4 s or • 2 s 4 s and λ is sufficiently large. As a consequence of Theorem 17.1 and Theorems 14.1, 15.1 and 16.1, we get the following existence result, which extends completely to the nonlocal fractional framework the well-known Brezis–Nirenberg-type results given in [46, 60, 114, 221] for the Laplace equation: Theorem 17.2 Let s ∈ (0, 1) , n > 2 s, and Ω be an open, bounded subset of ℝ n with continuous boundary. Then problem (14.2) admits a nontrivial weak solution u ∈ ℍ 0 s (Ω) , provided that either • n > 4 s and λ > 0, • n = 4 s and λ > 0 is different from the eigenvalues of (−Δ) s , or • n 4 s and λ > 0 is sufficiently large. Roughly speaking, Theorem 17.2 says that what happens in the nonlocal framework is exactly what we know in the classing setting (see [46, 60, 114, 221] and also [120, 212, 220] and references therein).
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