分数超容积不等式的相等条件

Pub Date : 2024-07-05 DOI:10.1007/s00454-024-00672-8

Mark Meyer

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引用次数: 0

摘要

在研究 Lebesgue 测量的集合函数性质时，F. Barthe 和 M. Madiman 证明了 Lebesgue 测量在 \(\mathbb {R}^n\) 紧凑集合上是分数超正定的。为此，他们证明了维度 \(n=1\) 中布伦-明可夫斯基-柳斯特尼克（Brunn-Minkowski-Lyusternik，BML）不等式的分数广义化。在本文中，我们将证明任意维度的分数叠加体积不等式的相等条件。非难等式条件如下。在一维情况下，我们将证明对于分数分割 \((\mathcal {G},\beta )\)和非空集 \(A_1,\dots ,A_m\subseteq \mathbb {R}\)，如果对于每个 \(S\in \mathcal {G}\)，集 \(\sum _{i\in S}A_i\) 是一个区间，那么等式成立。在维数为\(nge 2\) 的情况下，我们将证明只有当且仅当集合\(\sum _{i=1}^{m}A_i\) 的度量为 0 时，相等才成立。

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Equality Conditions for the Fractional Superadditive Volume Inequalities

While studying set function properties of Lebesgue measure, F. Barthe and M. Madiman proved that Lebesgue measure is fractionally superadditive on compact sets in \(\mathbb {R}^n\). In doing this they proved a fractional generalization of the Brunn–Minkowski–Lyusternik (BML) inequality in dimension \(n=1\). In this paper we will prove the equality conditions for the fractional superadditive volume inequalites for any dimension. The non-trivial equality conditions are as follows. In the one-dimensional case we will show that for a fractional partition \((\mathcal {G},\beta )\) and nonempty sets \(A_1,\dots ,A_m\subseteq \mathbb {R}\), equality holds iff for each \(S\in \mathcal {G}\), the set \(\sum _{i\in S}A_i\) is an interval. In the case of dimension \(n\ge 2\) we will show that equality can hold if and only if the set \(\sum _{i=1}^{m}A_i\) has measure 0.

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