Multiplicity results for elliptic problems involving nonlocal integrodifferential operators without AmbrosettiRabinowitz condition
Abstract
In this paper, we study the existence and multiplicity of weak solutions for a general class of elliptic equations (\mathscr{P}_{\lambda}) in a smooth bounded domain, driven by a nonlocal integrodifferential operator \mathscr{L}_{\mathcal{A}K} with Dirichlet boundary conditions involving variable exponents without Ambrosetti and Rabinowitz type growth conditions. Using different versions of the Mountain Pass Theorem, as well as, the Fountain Theorem and Dual Fountain Theorem with Cerami condition, we obtain the existence of weak solutions for the problem (\mathscr{P}_{\lambda}) and we show that the problem treated has at least one nontrivial solution for any parameter \lambda>0 small enough as well as that the solution blows up, in the fractional Sobolev norm, as \lambda \to 0. Moreover, for the case sublinear, by imposing some additional hypotheses on the nonlinearity f(x,\cdot), by using a new version of the symmetric Mountain Pass Theorem due to Kajikiya [36], we obtain the existence of infinitely many weak solutions which tend to be zero, in the fractional Sobolev norm, for any parameter \lambda>0. As far as we know, the results of this paper are new in the literature.
 Publication:

arXiv eprints
 Pub Date:
 March 2020
 arXiv:
 arXiv:2004.00416
 Bibcode:
 2020arXiv200400416M
 Keywords:

 Mathematics  Analysis of PDEs
 EPrint:
 arXiv admin note: text overlap with arXiv:2003.13646