The index of lattice Dirac operators and $K$-theory

arXiv - MATH - K-Theory and Homology Pub Date : 2024-07-25 DOI:arxiv-2407.17708
Shoto Aoki, Hidenori Fukaya, Mikio Furuta, Shinichiroh Matsuo, Tetsuya Onogi, Satoshi Yamaguchi
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Abstract

We mathematically show an equality between the index of a Dirac operator on a flat continuum torus and the $\eta$ invariant of the Wilson Dirac operator with a negative mass when the lattice spacing is sufficiently small. Unlike the standard approach, our formulation using $K$-theory does not require the Ginsparg-Wilson relation or the modified chiral symmetry on the lattice. We prove that a one-parameter family of continuum massive Dirac operators and the corresponding Wilson Dirac operators belong to the same equivalence class of the $K^1$ group at a finite lattice spacing. Their indices, which are evaluated by the spectral flow or equivalently by the $\eta$ invariant at finite masses, are proved to be equal.
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晶格狄拉克算子的指数与 $K$ 理论
我们用数学方法证明,当晶格间距足够小时,平面连续环上的狄拉克算子的指数与具有负质量的威尔逊狄拉克算子的$\ea$不变式之间是相等的。与标准方法不同,我们使用 $K$ 理论的表述不需要金斯帕-威尔逊关系或晶格上的修正手性对称性。我们证明,在有限晶格间距下,连续大质量狄拉克算子的一参数族和相应的威尔逊狄拉克算子属于 $K^1$ 群的同一等价类。通过谱流或等价于有限质量的$\eta$不变式评估的它们的指数被证明是相等的。
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arXiv - MATH - K-Theory and Homology
arXiv - MATH - K-Theory and Homology
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