Bifurcation domains from any high eigenvalue for an overdetermined elliptic problem

Abstract

In this paper, we consider the following overdetermined eigenvalue problem on an unbounded domain ⊂RN+1 with N≥1 equation \ arrayll - u=λ u\,\, &in\,\, ,\\ u=0 &on\,\, ∂ ,\\ ∂ u=const &on\,\, ∂ . array . equation Let λk be the k-th eigenvalue of the zero-Dirichlet Laplacian on the unit ball for any k∈ N+ with k≥ 3. We can construct k smooth families of nontrivial unbounded domains , bifurcating from the straight cylinder, which admit a nonsymmetric solution with changing the sign by k-1 times to the overdetermined problem. While the existence of such domains for k=1,2 has been well-known, to the best of our knowledge this is the first construction for any positive integer k≥ 3. Due to the complexity of studying high eigenvalue problem, our proof involves some novel analytic ingredients. These results can be regarded as counterexamples to the Berenstein conjecture on unbounded domain.