A characterization of the Euclidean ball via antipodal points

Pub Date : 2024-04-11 DOI:10.1007/s00010-024-01055-3
Xuguang Lu
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Abstract

Arising from an equilibrium state of a Fermi–Dirac particle system at the lowest temperature, a new characterization of the Euclidean ball is proved: a compact set \(K\subset {{{\mathbb {R}}}^n}\) (having at least two elements) is an n-dimensional Euclidean ball if and only if for every pair \(x, y\in \partial K\) and every \(\sigma \in {{{\mathbb {S}}}^{n-1}}\), either \(\frac{1}{2}(x+y)+\frac{1}{2}|x-y|\sigma \in K\) or \(\frac{1}{2}(x+y)-\frac{1}{2}|x-y|\sigma \in K\). As an application, a measure version of this characterization of the Euclidean ball is also proved and thus the previous result proved for \(n=3\) on the classification of equilibrium states of a Fermi–Dirac particle system holds also true for all \(n\ge 2\).

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通过对跖点描述欧几里得球的特征
从费米-狄拉克粒子系统在最低温度下的平衡态出发,证明了欧几里得球的一个新特征:一个紧凑集(K子集{{{{mathbb {R}}^n}\) (至少有两个元素)是一个n维的欧几里得球,当且仅当对于每一对 \(x、y in \partial K\) 和 every \(\sigma \in {{\mathbb {S}}}^{n-1}}\), either \(\frac{1}{2}(x+y)+\frac{1}{2}|x-y|\sigma \in K\) or\(\frac{1}{2}(x+y)-\frac{1}{2}|x-y|\sigma \in K\).作为一个应用,欧几里得球的这一特征的度量版本也被证明了,因此之前证明的关于费米-狄拉克粒子系统平衡态分类的\(n=3\)的结果对于所有的\(n\ge 2\) 也是成立的。
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