Release Time:2019-03-09  Hits:

Indexed by: Journal Papers

Date of Publication: 2015-09-01

Journal: TOPOLOGICAL METHODS IN NONLINEAR ANALYSIS

Included Journals: Scopus、SCIE

Volume: 46

Issue: 1

Page Number: 135-163

ISSN: 1230-3429

Key Words: Eigenvalue; bifurcation; convex solution; Monge-Ampere equation

Abstract: In this paper we study the following eigenvalue boundary value problem for Monge-Ampere equations
   {det(D(2)u) = lambda(N) f(-u) in Omega,
   u = 0 on partial derivative Omega.
   We establish global bifurcation results for the problem with f(u) = u(N) + g(u) and Omega being the unit ball of R-N. More precisely, under some natural hypotheses on the perturbation function g: [0, +infinity) -> [0, +infinity), we show that (lambda(1), 0) is a bifurcation point of the problem and there exists an unbounded continuum of convex solutions, where lambda(1) is the first eigenvalue of the problem with f(u) = u(N). As the applications of the above results, we consider with determining interval of lambda, in which there exist convex solutions for this problem in unit ball. Moreover, we also get some results about the existence and nonexistence of convex solutions for this problem on general domain by domain comparison method.