# Ground state solution for a class of modified nonlinear fourth-order   elliptic equation with sign-changing unbounded potential

**Authors:** Jose Carlos de Oliveira Junior

arXiv: 1906.08390 · 2020-10-23

## TL;DR

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## Contribution

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## Abstract

We are concerned on the fourth-order elliptic equation \begin{equation}\tag{$P_\lambda$} \left\{ \begin{array}[c]{ll} \Delta^2 u- \Delta u + V(x)u -\lambda \Delta[\rho(u^2)]\rho'(u^2)u= f(u)\, \, \mbox{in} \, \, \mathbb{R}^N, & u\in W^{2,2}(\mathbb{R}^N), \end{array} \right. \end{equation} where $\Delta^2 = \Delta(\Delta)$ is the biharmonic operator, $3\leq N\leq 6$, the radially symmetric potential $V$ may change sign and $\inf_{\mathbb{R}^N}V(x)=-\infty$ is allowed. If $f$ satisfies a type of nonquadracity and monotonicity conditions and $\rho$ is a suitable smooth function, we prove, via variational approach, the existence of a radially symmetric nontrivial ground state solution $u_\lambda$ for problem $(P_\lambda)$ for all $\lambda\geq 0$.

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## References

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Source: https://tomesphere.com/paper/1906.08390