We propose a magnetic topological transistor based on MnBi2Te4, in which the "on" state (quantized conductance) and the "off" state (zero conductance) can be easily switched by changing the relative direction of two adjacent electric fields (parallel vs. antiparallel) applied within a two-terminal junction. We explain that the proposed magnetic topological transistor relies on a novel mechanism due to the interplay of topology, magnetism, and layer degrees of freedom in MnBi2Te4. Its performance depends substantially on film thickness and type of magnetic order. We show that "on" and "off" states of the transistor are robust against disorder due to the topological nature of the surface states. Our work opens an avenue for applications of layer-selective transport based on the topological van der Waals antiferromagnet MnBi2Te4.
@article{arxiv.2206.11067,
title = {Magnetic topological transistor exploiting layer-selective transport},
author = {Hai-Peng Sun and Chang-An Li and Sang-Jun Choi and Song-Bo Zhang and Hai-Zhou Lu and Björn Trauzettel},
journal= {arXiv preprint arXiv:2206.11067},
year = {2023}
}