黎曼流形上Schrödinger方程的多解及其$$\nabla$$Ş-定理

Pub Date : 2023-01-24 DOI:10.1007/s10455-023-09885-1

Luigi Appolloni, Giovanni Molica Bisci, Simone Secchi

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引用次数: 0

摘要

我们考虑一个维为（d\ge3\）的光滑、完备和非紧黎曼流形\（\mathcal｛M｝，g）\，并寻找一个半线性椭圆方程$\beart｛aligned｝-\varDelta_g w+V（\ sigma）w=\alpha（\ sigma）f（w）+\lambda w\quad\hbox｛in｝\mathcal{M｝。\end｛aligned｝$$势\（V:\mathcal｛M｝\rightarrow\mathbb｛R｝\）是一个连续函数，在适当意义上是矫顽的，而非线性f在Sobolev嵌入意义上具有亚临界增长。利用Marino和Saccon引入的\（\nabla\）-定理，我们证明了只要参数\（\lambda\）足够接近算子\（-\varDelta_g\）的特征值，就存在至少三个非平凡解。

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Multiple solutions for Schrödinger equations on Riemannian manifolds via $\nabla $-theorems

We consider a smooth, complete and non-compact Riemannian manifold $(\mathcal {M},g)$ of dimension $d \ge 3$, and we look for solutions to the semilinear elliptic equation

$$\begin{aligned} -\varDelta _g w + V(\sigma ) w = \alpha (\sigma ) f(w) + \lambda w \quad \hbox {in }\mathcal {M}. \end{aligned}$$

The potential $V :\mathcal {M} \rightarrow \mathbb {R}$ is a continuous function which is coercive in a suitable sense, while the nonlinearity f has a subcritical growth in the sense of Sobolev embeddings. By means of $\nabla $-theorems introduced by Marino and Saccon, we prove that at least three non-trivial solutions exist as soon as the parameter $\lambda $ is sufficiently close to an eigenvalue of the operator $-\varDelta _g$.

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