具有非常退化势能的非线性薛定谔方程集中解的莫尔斯指数

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-07-04 DOI:10.1007/s00526-024-02766-w

Peng Luo, Kefan Pan, Shuangjie Peng

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引用次数: 0

摘要

我们重温下面的非线性薛定谔方程 $$begin{aligned} -\varepsilon ^2\Delta u+ V(x)u=u^{p},\quad u>0,\；\; u\in H^1({\mathbb {R}}^N), \end{aligned}$ 其中 $\varepsilon >0$ 是一个小参数， $N\ge 2$ 和 $1<p<2^*-1$.众所周知，莫尔斯指数给出了解的强有力的定性信息，如非退化性、唯一性、对称性、奇异性以及解的分类。在此，我们将计算当 V(x) 的临界点为非孤立且退化时，上述问题的正 k 峰解的莫尔斯指数。我们还给出了当 V(x) 的临界点集是低维椭圆时 k 峰解的莫尔斯指数的具体公式。我们的主要困难来自势 V(x) 的非均匀退化性。我们的结果将 Grossi 和 Servadei 的研究成果（Ann Math Pura Appl 186: 433-453, (2007)）推广到了非常退化（非容许）的势上，并表明势的结构对集中解的性质有很大影响。

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Morse index of concentrated solutions for the nonlinear Schrödinger equation with a very degenerate potential

We revisit the following nonlinear Schrödinger equation

$$\begin{aligned} -\varepsilon ^2\Delta u+ V(x)u=u^{p},\quad u>0,\;\; u\in H^1({\mathbb {R}}^N), \end{aligned}$$

where $\varepsilon >0$ is a small parameter, $N\ge 2$ and $1<p<2^*-1$. It is known that the Morse index gives a strong qualitative information on the solutions, such as non-degeneracy, uniqueness, symmetries, singularities as well as classifying solutions. Here we compute the Morse index of positive k-peak solutions to above problem when the critical points of V(x) are non-isolated and degenerate. We also give a specific formula for the Morse index of k-peak solutions when the critical point set of V(x) is a low-dimensional ellipsoid. Our main difficulty comes from the non-uniform degeneracy of potential V(x). Our results generalize Grossi and Servadei’s work (Ann Math Pura Appl 186: 433–453, (2007)) to very degenerate (non-admissible) potentials and show that the structure of potentials highly affects the properties of concentrated solutions.

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464