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Paper detail

Light-induced Magnetic Phase Transition in van der Waals Antiferromagnets

Based on a simple tight-binding model, we propose a general theory of light-induced magnetic phase transition (MPT) in antiferromagnets based on the general conclusion that the bandgap of antiferromagnetic (AFM) phase is usually larger than that of ferromagnetic (FM) one in a given system. Light-induced electronic excitation prefers to stabilize the FM state over the AFM one, and once the critical photocarrier concentration (α_c) is reached, an MPT from AFM phase to FM phase takes place. This theory has been confirmed by performing first-principles calculations on a series of two-dimensional (2D) van der Waals (vdW) antiferromagnets and a linear relationship between α_c and the intrinsic material parameters is obtained. Importantly, our conclusion is still valid even considering the strong exciton effects during photoexcitation. Our general theory provides new ideas to realize reversible read-write operations for future memory devices.

preprint2022arXivOpen access
Jiabin ChenYang LiHongyu YuYali YangHeng JinBing HuangHongjun Xiang
cond-mat.mtrl-sci
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Jiabin ChenYang LiHongyu YuYali YangHeng JinBing HuangHongjun Xiang

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