Critical planar Schrödinger–Poisson equations: existence, multiplicity and concentration

IF 1 3区数学 Q1 MATHEMATICS Mathematische Zeitschrift Pub Date : 2024-05-30 DOI:10.1007/s00209-024-03520-w

Yiqing Li, Vicenţiu D. Rădulescu, Binlin Zhang

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Abstract

In this paper, we are concerned with the study of the following 2-D Schrödinger–Poisson equation with critical exponential growth

$$\begin{aligned} -\varepsilon ^2\Delta u+V(x)u+\varepsilon ^{-\alpha }(I_\alpha *|u|^q)|u|^{q-2}u=f(u), \end{aligned}$$

where $\varepsilon >0$ is a parameter, $I_\alpha $ is the Riesz potential, $0<\alpha <2$, $V\in {\mathcal {C}}({{\mathbb {R}}}^2,{{\mathbb {R}}})$, and $f\in {\mathcal {C}}({{\mathbb {R}}},{{\mathbb {R}}})$ satisfies the critical exponential growth. By variational methods, we first prove the existence of ground state solutions for the above system with the periodic potential. Then we obtain that there exists a positive ground state solution of the above system concentrating at a global minimum of V in the semi-classical limit under some suitable conditions. Meanwhile, the exponential decay of this ground state solution is detected. Finally, we establish the multiplicity of positive solutions by using the Ljusternik–Schnirelmann theory.

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临界平面薛定谔-泊松方程：存在性、多重性和集中性

本文主要研究以下具有临界指数增长的二维薛定谔-泊松方程 $$\begin{aligned} -\varepsilon ^2\Delta u+V(x)u+\varepsilon ^{-\alpha }(I_\alpha *|u|^q)|u|^{q-2}u=f(u), \end{aligned}$$其中 $\varepsilon >；0）是一个参数，（I_\alpha \）是里兹势，（0<\alpha <；2)，\(V\in {\mathcal {C}}({{mathbb {R}}}^2,{{\mathbb {R}}})$和\(f\in {\mathcal {C}}({{mathbb {R}}},{{\mathbb {R}}})满足临界指数增长。通过变分法，我们首先证明了上述具有周期势的系统的基态解的存在性。然后我们得到，在一些合适的条件下，上述系统存在一个集中于半经典极限 V 全局最小值的正基态解。同时，我们还探测到了该基态解的指数衰减。最后，我们利用 Ljusternik-Schnirelmann 理论建立了正解的多重性。

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