Xilin Dou scite author profile

Xilin Dou

3Publications

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65Citation Statements Given

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Minzu University of China

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Ground states for critical fractional Schrödinger‐Poisson systems with vanishing potentials

Dou

2022

Math Methods in App Sciences

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This paper deals with a class of fractional Schrödinger‐Poisson system {array(−Δ)su+V(x)u−K(x)ϕ|u|2s∗−3u=a(x)f(u),arrayx∈ℝ3array(−Δ)sϕ=K(x)|u|2s∗−1,arrayx∈ℝ3$$ \left\{\begin{array}{cc}{\left(-\Delta \right)}^su+V(x)u-K(x)\phi {\left|u\right|}^{2_s^{\ast }-3}u=a(x)f(u),\kern0.30em & x\in {\mathbb{R}}^3\\ {}{\left(-\Delta \right)}^s\phi =K(x){\left|u\right|}^{2_s^{\ast }-1},\kern0.30em & x\in {\mathbb{R}}^3\end{array}\right. $$ with a critical nonlocal term and multiple competing potentials, which may decay and vanish at infinity, where s∈false(34,1false),0.1em2s∗=63−2s$$ s\in \left(\frac{3}{4},1\right),{2}_s^{\ast }=\frac{6}{3-2s} $$ is the fractional critical exponent. The problem is set on the whole space, and compactness issues have to be tackled. By employing the mountain pass theorem, concentration‐compactness principle, and approximation method, the existence of a positive ground state solution is obtained under appropriate assumptions imposed on V$$ V $$, K$$ K $$, a$$ a $$, and f$$ f $$.

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Ground states for critical fractional Schr\”{o}dinger-Poisson systems with vanishing potentials

Dou

2021

Preprint

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This paper deals with a class of fractional Schr\”{o}dinger-Poisson system \[\begin{cases}\displaystyle (-\Delta )^{s}u+V(x)u-K(x)\phi |u|^{2^*_s-3}u=a (x)f(u), &x \in \R^{3}\\ (-\Delta )^{s}\phi=K(x)|u|^{2^*_s-1}, &x \in \R^{3}\end{cases} \]with a critical nonlocal term and multiple competing potentials, which may decay and vanish at infinity, where $s \in (\frac{3}{4},1)$, $ 2^*_s = \frac{6}{3-2s}$ is the fractional critical exponent. The problem is set on the whole space and compactness issues have to be tackled. By employing the mountain pass theorem, concentration-compactness principle and approximation method, the existence of a positive ground state solution is obtained under appropriate assumptions imposed on $V, K, a$ and $f$.

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Multiplicity of solutions for a fractional Kirchhoff type equation with a critical nonlocal term

Dou

2023

Fract Calc Appl Anal

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Xilin Dou

Ground states for critical fractional Schrödinger‐Poisson systems with vanishing potentials

Ground states for critical fractional Schr\”{o}dinger-Poisson systems with vanishing potentials

Multiplicity of solutions for a fractional Kirchhoff type equation with a critical nonlocal term

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