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二十面体旋量产生了……(原文表述似乎不完整,此译文仅基于现有内容)

The birth of out of the spinors of the icosahedron.

作者信息

Dechant Pierre-Philippe

机构信息

Departments of Mathematics and Biology , York Centre for Complex Systems Analysis, University of York , Heslington, York YO10 5GG, UK.

出版信息

Proc Math Phys Eng Sci. 2016 Jan;472(2185):20150504. doi: 10.1098/rspa.2015.0504.

Abstract

is prominent in mathematics and theoretical physics, and is generally viewed as an exceptional symmetry in an eight-dimensional (8D) space very different from the space we inhabit; for instance, the Lie group features heavily in 10D superstring theory. Contrary to that point of view, here we show that the root system can in fact be constructed from the icosahedron alone and can thus be viewed purely in terms of 3D geometry. The 240 roots of arise in the 8D Clifford algebra of 3D space as a double cover of the 120 elements of the icosahedral group, generated by the root system . As a by-product, by restricting to even products of root vectors (spinors) in the 4D even subalgebra of the Clifford algebra, one can show that each 3D root system induces a root system in 4D, which turn out to also be exactly the exceptional 4D root systems. The spinorial point of view explains their existence as well as their unusual automorphism groups. This spinorial approach thus in fact allows one to construct all exceptional root systems within the geometry of three dimensions, which opens up a novel interpretation of these phenomena in terms of spinorial geometry.

摘要

在数学和理论物理中很突出,通常被视为在一个与我们所居住的空间非常不同的八维(8D)空间中的一种特殊对称性;例如,李群在10维超弦理论中起着重要作用。与那种观点相反,在这里我们表明根系实际上可以仅从二十面体构建出来,因此可以纯粹从三维几何的角度来看待。 的240个根出现在三维空间的8D克利福德代数中,作为由根系 生成的二十面体群的120个元素的双覆盖。作为一个副产品,通过限制在克利福德代数的4D偶子代数中的根向量(旋量)的偶乘积,可以表明每个三维根系在4D中诱导出一个根系,结果也恰好是特殊的4D根系。旋量观点解释了它们的存在以及它们不寻常的自同构群。因此,这种旋量方法实际上允许人们在三维几何中构建所有特殊根系,这为这些现象提供了一种基于旋量几何的新颖解释。

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