Poincare Invariance in Discrete Gravity

Ali H. Chamseddine, Mariam Khaldieh
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Abstract

A formulation of discrete gravity was recently proposed based on defining a lattice and a shift operator connecting the cells. Spinors on such a space will have rotational SO(d) invariance which is taken as the fundamental symmetry. Inspired by lattice QCD, discrete analogues of curvature and torsion were defined that go smoothly to the corresponding tensors in the continuous limit. In this paper, we show that the absence of diffeomorphism invariance could be replaced by requiring translational invariance in the tangent space by enlarging the tangent space from SO(d) to the inhomogeneous Lorentz group ISO(d) to include translations. We obtain the ISO(d) symmetry by taking instead the Lie group SO(d + 1) and to perform on it Inonu-Wigner contraction. We show that, just as for continuous spaces, the zero torsion constraint converts the translational parameter to a diffeomorphism parameter, thus explaining the effectiveness of this formulation.
离散引力中的庞加莱不变性
最近,有人提出了一种离散引力公式,它基于定义晶格和连接晶格的移位算子。受格子 QCD 的启发,我们定义了曲率和扭转的离散类似物,它们在连续极限中与相应的张量平滑地对应。在本文中,我们证明了通过将切线空间从 SO(d) 扩大到不均匀洛伦兹群 ISO(d)以包括平移,可以通过要求切线空间的平移不变性来替代衍射不变性的缺失。我们通过取代列群 SO(d+1)并对其进行伊诺努-维格纳收缩来获得 ISO(d) 对称性。我们证明,与连续空间一样,零扭转约束将平移参数转换为衍射参数,从而解释了这种表述的有效性。
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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