非紧空间中压力的可微性

Pub Date : 2020-10-20 DOI:10.4064/fm182-3-2022

G. Iommi, M. Todd

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引用次数: 2

摘要

压力的规律性与相变有关。在本文中，我们研究了在非紧相空间中定义的系统的热力学形式，我们的主要焦点是可数马尔可夫位移。我们给出了空间的度量紧化，证明了一致连续函数空间中的压力在残集上和在Aronszajn零集外是可微的。我们建立了一个准则，即所谓的扇形排列性质，它意味着原系统中的压力和紧化中的压力是一致的。给出了紧化可以具有丰富边界的例子，例如康托集。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Differentiability of the pressure in non-compact spaces

Regularity properties of the pressure are related to phase transitions. In this article we study thermodynamic formalism for systems defined in non-compact phase spaces, our main focus being countable Markov shifts. We produce metric compactifications of the space which allow us to prove that the pressure is differentiable on a residual set and outside an Aronszajn null set in the space of uniformly continuous functions. We establish a criterion, the so called sectorially arranged property, which implies that the pressure in the original system and in the compactification coincide. Examples showing that the compactifications can have rich boundaries, for example a Cantor set, are provided.

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