Existence and Multiplicity of Solutions for a Class of Elliptic Equations Without Ambrosetti–Rabinowitz Type Conditions

In this paper we establish, using variational methods, the existence and multiplicity of weak solutions for a general class of quasilinear problems involving p ( · ) -Laplace type operators, with Dirichlet boundary conditions involving variable exponents without Ambrosetti and Rabinowitz (A-R) type...

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Bibliographic Details
Published in:Journal of dynamics and differential equations 2018-06, Vol.30 (2), p.405-432
Main Authors: Hurtado, E. Juárez, Miyagaki, O. H., Rodrigues, R. S.
Format: Article
Language:English
Subjects:
Applications of Mathematics
Dirichlet problem
Elliptic functions
Existence theorems
Mathematics
Mathematics and Statistics
Ordinary Differential Equations
Partial Differential Equations
Variational methods
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Summary:In this paper we establish, using variational methods, the existence and multiplicity of weak solutions for a general class of quasilinear problems involving p ( · ) -Laplace type operators, with Dirichlet boundary conditions involving variable exponents without Ambrosetti and Rabinowitz (A-R) type growth conditions, namely - div ( a ( | ∇ u | p ( x ) ) | ∇ u | p ( x ) - 2 ∇ u ) = λ f ( x , u ) in Ω , u = 0 on ∂ Ω . By different types of versions of the Mountain Pass Theorem with Cerami condition, as well as, the Fountain and Dual Theorem with Cerami condition, we obtain some existence of weak solutions for the above problem under some considerations. Moreover, we show that the problem treated has at least one nontrivial solution for any parameter λ > 0 small enough, and also that the solution blows up, in the Sobolev norm, as λ → 0 + . Finally, by imposing additional hypotheses on the nonlinearity f ( x , · ) , we get the existence of infinitely many weak solutions by using the Genus Theory introduced by Krasnoselskii.
ISSN:1040-7294
1572-9222
DOI:10.1007/s10884-016-9542-6