万尼尔函数的代数定位暗示非周期性绝缘体中的切尔诺三性

IF 1.4 3区 物理与天体物理 Q2 PHYSICS, MATHEMATICAL Annales Henri Poincaré Pub Date : 2024-06-12 DOI:10.1007/s00023-024-01444-z
Jianfeng Lu, Kevin D. Stubbs
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引用次数: 0

摘要

对于间隙周期系统(绝缘体),已经确定绝缘体在拓扑上是微不足道的(即:其切尔诺数等于 0),当且仅当其费米投影体允许一个具有有限第二矩的正交基(即所有基元满足它的切尔诺数等于 0)(即所有基元都满足 \(int |\varvec{x}|^2 |w(\varvec{x})|^2 \,\text {d}{\varvec{x}} < \infty \))。在本文中,我们将这一结果的一个方向扩展到非周期性间隙系统。特别是,我们证明了存在一个衰减稍多的正交基础(\(\int |\varvec{x}|^{2+\epsilon })。|w(\varvec{x})|^2 \,\text {d}{\varvec{x}} < \infty \) for any \(\epsilon > 0\)) 是得出切恩标记(切恩数的自然广义)消失这一结论的充分条件。
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Algebraic Localization of Wannier Functions Implies Chern Triviality in Non-periodic Insulators

For gapped periodic systems (insulators), it has been established that the insulator is topologically trivial (i.e., its Chern number is equal to 0) if and only if its Fermi projector admits an orthogonal basis with finite second moment (i.e., all basis elements satisfy \(\int |\varvec{x}|^2 |w(\varvec{x})|^2 \,\text {d}{\varvec{x}} < \infty \)). In this paper, we extend one direction of this result to non-periodic gapped systems. In particular, we show that the existence of an orthogonal basis with slightly more decay (\(\int |\varvec{x}|^{2+\epsilon } |w(\varvec{x})|^2 \,\text {d}{\varvec{x}} < \infty \) for any \(\epsilon > 0\)) is a sufficient condition to conclude that the Chern marker, the natural generalization of the Chern number, vanishes.

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来源期刊
Annales Henri Poincaré
Annales Henri Poincaré 物理-物理:粒子与场物理
CiteScore
3.00
自引率
6.70%
发文量
108
审稿时长
6-12 weeks
期刊介绍: The two journals Annales de l''Institut Henri Poincaré, physique théorique and Helvetica Physical Acta merged into a single new journal under the name Annales Henri Poincaré - A Journal of Theoretical and Mathematical Physics edited jointly by the Institut Henri Poincaré and by the Swiss Physical Society. The goal of the journal is to serve the international scientific community in theoretical and mathematical physics by collecting and publishing original research papers meeting the highest professional standards in the field. The emphasis will be on analytical theoretical and mathematical physics in a broad sense.
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