Topological Anderson phases in heat transport

Topological Anderson phases (TAPs) offer intriguing transitions from ordered to disordered systems in photonics and acoustics. However, achieving these transitions often involves cumbersome structural modifications to introduce disorders in parameters, leading to limitations in flexible tuning of to...

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Veröffentlicht in:	Reports on progress in physics 2024-08, Vol.87 (9), p.90501
Hauptverfasser:	Gao, He, Xu, Guoqiang, Zhou, Xue, Yang, Shuihua, Su, Zhongqing, Qiu, Cheng-Wei
Format:	Artikel
Sprache:	eng
Schlagworte:	heat transport non-Hermitian disorder topological Anderson insulator topological phase transition
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creator	Gao, He Xu, Guoqiang Zhou, Xue Yang, Shuihua Su, Zhongqing Qiu, Cheng-Wei
description	Topological Anderson phases (TAPs) offer intriguing transitions from ordered to disordered systems in photonics and acoustics. However, achieving these transitions often involves cumbersome structural modifications to introduce disorders in parameters, leading to limitations in flexible tuning of topological properties and real-space control of TAPs. Here, we exploit disordered convective perturbations in a fixed heat transport system. Continuously tunable disorder-topology interactions are enabled in thermal dissipation through irregular convective lattices. In the presence of a weak convective disorder, the trivial diffusive system undergos TAP transition, characterized by the emergence of topologically protected corner modes. Further increasing the strength of convective perturbations, a second phase transition occurs converting from TAP to Anderson phase. Our work elucidates the pivotal role of disorders in topological heat transport and provides a novel recipe for manipulating thermal behaviors in diverse topological platforms.
doi_str_mv	10.1088/1361-6633/ad6d88
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subjects	heat transport non-Hermitian disorder topological Anderson insulator topological phase transition
title	Topological Anderson phases in heat transport
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