曲面小特征值的尖锐下限

arXiv - MATH - Spectral Theory Pub Date : 2024-07-31 DOI:arxiv-2407.21780

Renan Gross, Guy Lachman, Asaf Nachmias

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引用次数: 0

摘要

让 $S$ 是一个紧凑的双曲面，其属为 $g\geq 2$，让 $I(S) =\frac{1}{\mathrm{Vol}(S)}\int_{S} \frac{1}{\mathrm{Inj}(x)^2 \wedge 1} dx$，其中 $\mathrm{Inj}(x)$ 是在 $x$ 处的注入半径。我们证明，对于任意 $k\in \{1,\ldots, 2g-3\}$，拉普拉斯的 $k$-th 特征值 $\lambda_k$ 满足 \begin{equation*}\lambda_k \geq \frac{c k^2}{I(S) g^2}\, , \end{equation*} 其中 $c>0$ 是某个普遍常数。我们用这个约束来证明热核估计（begin{equation*}\frac{1}{mathrm{Vol}(S)} \int_S \Big| p_t(x,x) -\frac{1}{mathrm{Vol}(S)}\Big| ~dx \leq C \sqrt{\frac{I(S)}{t}}\qquad \forall t \geq 1 \, ,\end{equation*} 其中 $C<\infty$ 是某个通用常数。这些边界是最优的，因为对于每一个 $g\geq 2$，都存在一个属$g$的紧凑超曲面，满足不同常数的反向不等式。

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A sharp lower bound on the small eigenvalues of surfaces

Let $S$ be a compact hyperbolic surface of genus $g\geq 2$ and let $I(S) = \frac{1}{\mathrm{Vol}(S)}\int_{S} \frac{1}{\mathrm{Inj}(x)^2 \wedge 1} dx$, where $\mathrm{Inj}(x)$ is the injectivity radius at $x$. We prove that for any $k\in \{1,\ldots, 2g-3\}$, the $k$-th eigenvalue $\lambda_k$ of the Laplacian satisfies \begin{equation*} \lambda_k \geq \frac{c k^2}{I(S) g^2} \, , \end{equation*} where $c>0$ is some universal constant. We use this bound to prove the heat kernel estimate \begin{equation*} \frac{1}{\mathrm{Vol}(S)} \int_S \Big| p_t(x,x) -\frac{1}{\mathrm{Vol}(S)} \Big | ~dx \leq C \sqrt{ \frac{I(S)}{t}} \qquad \forall t \geq 1 \, , \end{equation*} where $C<\infty$ is some universal constant. These bounds are optimal in the sense that for every $g\geq 2$ there exists a compact hyperbolic surface of genus $g$ satisfying the reverse inequalities with different constants.

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arXiv - MATH - Spectral Theory

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