On linear-algebraic notions of expansion

Yinan Li, Y. Qiao, A. Wigderson, Yuval Wigderson, Chuan-Hai Zhang
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引用次数: 1

Abstract

A fundamental fact about bounded-degree graph expanders is that three notions of expansion -- vertex expansion, edge expansion, and spectral expansion -- are all equivalent. In this paper, we study to what extent such a statement is true for linear-algebraic notions of expansion. There are two well-studied notions of linear-algebraic expansion, namely dimension expansion (defined in analogy to graph vertex expansion) and quantum expansion (defined in analogy to graph spectral expansion). Lubotzky and Zelmanov proved that the latter implies the former. We prove that the converse is false: there are dimension expanders which are not quantum expanders. Moreover, this asymmetry is explained by the fact that there are two distinct linear-algebraic analogues of graph edge expansion. The first of these is quantum edge expansion, which was introduced by Hastings, and which he proved to be equivalent to quantum expansion. We introduce a new notion, termed dimension edge expansion, which we prove is equivalent to dimension expansion and which is implied by quantum edge expansion. Thus, the separation above is implied by a finer one: dimension edge expansion is strictly weaker than quantum edge expansion. This new notion also leads to a new, more modular proof of the Lubotzky--Zelmanov result that quantum expanders are dimension expanders.
关于线性代数展开式的概念
关于有界度图展开器的一个基本事实是,展开的三个概念——顶点展开、边缘展开和谱展开——都是等价的。在本文中,我们研究了这种说法在多大程度上对线性代数展开式的概念是正确的。线性代数展开有两个被广泛研究的概念,即维度展开(类似于图顶点展开)和量子展开(类似于图谱展开)。Lubotzky和Zelmanov证明了后者暗示了前者。我们证明了相反的命题是错误的:存在不是量子膨胀的维度膨胀器。此外,这种不对称性可以用图边展开的两个不同的线性代数类似物来解释。第一个是量子边缘膨胀,这是由黑斯廷斯提出的,他证明了它等同于量子膨胀。我们引入了一个新的概念,称为维度边缘展开,我们证明了它等价于维度展开,并隐含在量子边缘展开中。因此,上面的分离是由一个更精细的分离隐含的:维度边缘膨胀严格弱于量子边缘膨胀。这个新概念也导致了一个新的,更模块化的鲁博茨基-泽尔马诺夫结果的证明,即量子膨胀器是维度膨胀器。
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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