Existence and concentration behavior of positive solutions to Schrödinger-Poisson-Slater equations

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Yiqing Li, Binlin Zhang, Xiumei Han
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引用次数: 3

Abstract

Abstract This article is directed to the study of the following Schrödinger-Poisson-Slater type equation: − ε 2 Δ u + V ( x ) u + ε − α ( I α ∗ ∣ u ∣ 2 ) u = λ ∣ u ∣ p − 1 u in R N , -{\varepsilon }^{2}\Delta u+V\left(x)u+{\varepsilon }^{-\alpha }\left({I}_{\alpha }\ast | u{| }^{2})u=\lambda | u{| }^{p-1}u\hspace{1em}\hspace{0.1em}\text{in}\hspace{0.1em}\hspace{0.33em}{{\mathbb{R}}}^{N}, where ε , λ > 0 \varepsilon ,\lambda \gt 0 are parameters, N ⩾ 2 N\geqslant 2 , ( α + 6 ) / ( α + 2 ) < p < 2 ∗ − 1 \left(\alpha +6)\hspace{0.1em}\text{/}\hspace{0.1em}\left(\alpha +2)\lt p\lt {2}^{\ast }-1 , I α {I}_{\alpha } is the Riesz potential with 0 < α < N 0\lt \alpha \lt N , and V ∈ C ( R N , R ) V\in {\mathcal{C}}\left({{\mathbb{R}}}^{N},{\mathbb{R}}) . By using variational methods, we prove that there is a positive ground state solution for the aforementioned equation concentrating at a global minimum of V V in the semi-classical limit, and then we found that this solution satisfies the property of exponential decay. Finally, the multiplicity and concentration behavior of positive solutions for the aforementioned problem is investigated by the Ljusternik-Schnirelmann theory. Our article improves and extends some existing results in several directions.
Schrödinger-Poisson-Slater方程正解的存在性与浓度行为
摘要本文旨在研究以下Schrödinger-Poisson-Slater型方程:−ε2Δu+V(x)u+ε−α({I}_{\alpha|\ast|u{|}^{2})u=λ^{p-1}u\hspace{1em}\space{0.1em}\text{in}\sspace{0.1em}\sace{0.33em}{{\mathbb{R}}}}^{N},其中ε、λ>0\varepsilon、λ>0是参数,N⩾2 N\geqslant 2,(α+6)/Iα{I}_{\alpha}是Riesz势,其中0<α
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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