Multiplicities in the Length Spectrum and Growth Rate of Salem Numbers

Bulletin of the Brazilian Mathematical Society, New Series Pub Date : 2024-05-18 DOI:10.1007/s00574-024-00398-4
Alexandr Grebennikov
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Abstract

We prove that mean multiplicities in the length spectrum of a non-compact arithmetic hyperbolic orbifold of dimension \(n \geqslant 4\) have exponential growth rate

$$\begin{aligned} \langle g(L) \rangle \geqslant c \frac{e^{([n/2] - 1)L}}{L^{1 + \delta _{5, 7}(n) }}, \end{aligned}$$

extending the analogous result for even dimensions of Belolipetsky, Lalín, Murillo and Thompson. Our proof is based on the study of (square-rootable) Salem numbers. As a counterpart, we also prove an asymptotic formula for the distribution of square-rootable Salem numbers by adapting the argument of Götze and Gusakova. It shows that one can not obtain a better estimate on mean multiplicities using our approach.

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萨林数长度谱中的倍数和增长率
我们证明,维数(n)的非紧凑算术双曲轨道的长度谱中的均值乘数具有指数增长率$$\begin{aligned}。\langle g(L) \rangle \geqslant c \frac{e^{([n/2] - 1)L}}{L^{1 + \delta _{5, 7}(n) }}, \end{aligned}$$ 扩展了贝洛里佩茨基、拉林、穆里略和汤普森对偶数维的类似结果。我们的证明基于对(可平方根)萨伦数的研究。作为对应,我们还通过改编格茨和古萨科娃的论证,证明了可平方根萨勒姆数分布的渐近公式。这表明,用我们的方法无法获得对平均乘数的更好估计。
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Bulletin of the Brazilian Mathematical Society, New Series
Bulletin of the Brazilian Mathematical Society, New Series
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