New critical point theorem and infinitely many normalized small-magnitude solutions of mass supercritical Schrödinger equations

Shaowei Chen
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Abstract

In this study, we investigate the existence of solutions \((\lambda , u) \in \mathbb {R} \times H^1(\mathbb {R}^N)\) to the Schrödinger equation

$$\begin{aligned} \left\{ \begin{array}{ll} -\Delta u+V(x)u+\lambda u=|u|^{p-2}u,\quad x\in \mathbb {R}^{N},\\ \int _{\mathbb {R}^N}|u|^2=a, \end{array} \right. \end{aligned}$$

where \(N\ge 2\), \(a>0\) is a constant and p satisfies \(2+4/N<p<+\infty \). The potential V satisfies the condition that the operator \(-\Delta +V\) contains infinitely many isolated eigenvalues with an accumulation point. We prove that this equation has a sequence of solutions \(\{(\lambda _m, u_m)\}\) such that \(\Vert u_m\Vert _{L^\infty (\mathbb {R}^N)}\rightarrow 0\) as \(m\rightarrow \infty \). The proof is provided by establishing a new critical point theorem without the typical Palais–Smale condition.

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质量超临界薛定谔方程的新临界点定理和无限多归一化小幅解
在本研究中,我们研究了薛定谔方程 $$\begin{aligned} 的解((\lambda , u) \in \mathbb {R} \times H^1(\mathbb {R}^N)\) 的存在性。-Delta u+V(x)u+lambda u=|u|^{p-2}u,\quad x\in \mathbb {R}^{N},\\int _\mathbb {R}^{N}|u|^2=a,\end{array}.\right.\end{aligned}$where \(N\ge 2\), \(a>0\) is a constant and p satisfies \(2+4/N<p<+\infty \)。势 V 满足这样一个条件,即算子 \(-\Delta +V\) 包含无限多个孤立的特征值,并有一个累积点。我们证明这个方程有一连串的解 \(\{(\lambda _m, u_m)\}\) such that \(\Vert u_m\Vert _{L\^infty (\mathbb {R}^N)}\rightarrow 0\) as \(m\rightarrow \infty \)。证明的方法是建立一个新的临界点定理,而不需要典型的 Palais-Smale 条件。
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A note on averaging for the dispersion-managed NLS Global regularity of 2D generalized incompressible magnetohydrodynamic equations Classical and generalized solutions of an alarm-taxis model Sign-changing solution for an elliptic equation with critical growth at the boundary New critical point theorem and infinitely many normalized small-magnitude solutions of mass supercritical Schrödinger equations
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