不同无序结构下苏-施里弗-希格模型的不同拓扑相变

IF 1.5 4区 物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY
Yan Gu, Zhanpeng Lu
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引用次数: 0

摘要

我们研究了具有长程跳变和准周期调制的 Su-Schrieffer-Heeger 模型中的拓扑相变。通过数值计算实空间绕组数,我们得到了不同无序结构的拓扑相图。这些图示表明,选择特定的无序结构,拓扑相变会有所不同。当准周期调制应用于胞内跳变时,所产生的无序会诱发高绕组数(W = 2)的拓扑安德森绝缘体(TAI)相,但拓扑态会随着无序度的增加而被破坏。相反,当单元间的跳变被准周期调制时,拓扑零模的破坏和恢复过程都可以由无序引起。即使在强无序条件下,这些拓扑状态仍然保持稳健。我们的工作表明,无序效应并不总是破坏拓扑状态;相反,只要明智地选择无序结构,拓扑特性就能得到保留。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Different topological phase transitions in the Su–Schrieffer–Heeger model under different disorder structures
We investigate the topological phase transition in the Su–Schrieffer–Heeger model with the long-range hopping and quasi-periodic modulation. By numerically calculating the real-space winding number, we obtain topological phase diagrams for different disordered structures. These diagrams suggest that topological phase transitions are different by selecting the specific disordered structure. When quasi-periodic modulation is applied to intracell hopping, the resulting disorder induces topological Anderson insulator (TAI) phase with high winding number (W = 2), but the topological states are destroyed as the disorder increases. Conversely, when intercell hoppings are modulated quasi-periodically, both TAI phase and the process of destruction and restoration of topological zero modes can be induced by disorder. These topological states remain robust even under strong disorder conditions. Our work demonstrates that disorder effects do not always disrupt topological states; rather, with a judicious selection of disordered structures, topological properties can be preserved.
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来源期刊
Chinese Physics B
Chinese Physics B 物理-物理:综合
CiteScore
2.80
自引率
23.50%
发文量
15667
审稿时长
2.4 months
期刊介绍: Chinese Physics B is an international journal covering the latest developments and achievements in all branches of physics worldwide (with the exception of nuclear physics and physics of elementary particles and fields, which is covered by Chinese Physics C). It publishes original research papers and rapid communications reflecting creative and innovative achievements across the field of physics, as well as review articles covering important accomplishments in the frontiers of physics. Subject coverage includes: Condensed matter physics and the physics of materials Atomic, molecular and optical physics Statistical, nonlinear and soft matter physics Plasma physics Interdisciplinary physics.
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