2026-07-09 ペンシルベニア州立大学(Penn State)

Credit: Jaydyn Isiminger / Penn State. Creative Commons
<関連情報>
- https://www.psu.edu/news/research/story/quantum-material-opens-new-path-studying-unusual-electronic-behavior
- https://www.science.org/doi/10.1126/sciadv.aec7638
量子異常ホール絶縁体における非エルミートダイナミクス Non-Hermitian dynamics in quantum anomalous Hall insulators
Le Yi, Emma Steinebronn, Asmaul Smitha Rashid, Nitin Samarth, […] , and Morteza Kayyalha
Science Advances Published:17 Jun 2026
DOI:https://doi.org/10.1126/sciadv.aec7638
Abstract
Magnetically doped topological insulators (TIs) exhibit two distinct phases: the quantum anomalous Hall (QAH) phase when the Fermi level resides within the surface gap and a metallic phase outside the gap. The QAH phase hosts unidirectional transport channels known as chiral edge states, while the metallic phase exhibits nonreciprocal transport due to unbalanced bidirectional edge states. Using the chiral edge states in Cr-doped (Bi,Sb)2Te3 sandwich structures, we realize non-Hermitian conductance matrices in a one-dimensional Corbino chain with well-defined chirality. By tuning the boundary conditions from periodic to open, we reveal the non-Hermitian skin effect, where eigenstates localize exponentially at one end of the chain. In the metallic phase, we further observe asymmetric, bidirectional coupling between the neighboring sites in the conductance matrix, a direct consequence of the system’s intrinsic nonreciprocity. These results establish magnetic TIs as a powerful platform for investigating emergent non-Hermitian phenomena in topological systems.

