有限多个子空间中反射或旋转对称的全旋转对称性

IF 1.2 2区数学 Q1 MATHEMATICS Indiana University Mathematics Journal Pub Date : 2022-02-08 DOI:10.1512/iumj.2022.71.9818

G. Bianchi, R. Gardner, P. Gronchi

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引用次数: 2

摘要

讨论了两个相关问题。第一种是当有限组$i$维子空间$i\in\｛1，\dots，n-1｝$中的反射对称性意味着完全旋转对称性时，即反射生成的群的闭包等于$O（n）$。对于$i=n-1$，Burchard、Chambers和Dranovski基本上已经解决了这一问题，但对于$i\in\{1，\dots，n-2\}$获得了新的结果。第二个问题给出了一个基本上完全的答案，即关于有限组$i$维子空间$i\in\｛1，\dots，n-2\｝$的（完全）旋转对称性何时意味着完全旋转对称性，即，由关于每个子空间的所有旋转生成的群的闭包等于$SO（n）$。后一个结果还表明，$\mathbb｛R｝^n$中一个在绕多个轴旋转时不变的闭集必须是以原点为圆心的球体的并集。

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Full rotational symmetry from reflections or rotational symmetries in finitely many subspaces

Two related questions are discussed. The first is when reflection symmetry in a finite set of $i$-dimensional subspaces, $i\in \{1,\dots,n-1\}$, implies full rotational symmetry, i.e., the closure of the group generated by the reflections equals $O(n)$. For $i=n-1$, this has essentially been solved by Burchard, Chambers, and Dranovski, but new results are obtained for $i\in \{1,\dots,n-2\}$. The second question, to which an essentially complete answer is given, is when (full) rotational symmetry with respect to a finite set of $i$-dimensional subspaces, $i\in \{1,\dots,n-2\}$, implies full rotational symmetry, i.e., the closure of the group generated by all the rotations about each of the subspaces equals $SO(n)$. The latter result also shows that a closed set in $\mathbb{R}^n$ that is invariant under rotations about more than one axis must be a union of spheres with their centers at the origin.

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