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Bibliographic Details
Main Authors: Zhou, Xu-Guang, Yang, Zhuo, Lee, Youjin, Park, Jaena, Kohama, Yoshimitsu, Kindo, Koichi, Matsuda, Yasuhiro H., Park, Je-Geun, Janson, Oleg, Miyata, Atsuhiko
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2405.10326
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Table of Contents:
  • Magnetic-field control of fundamental optical properties is a crucial challenge in the engineering of multifunctional microdevices. Van der Waals (vdW) magnets retaining a magnetic order even in atomically thin layers, offer a promising platform for hosting exotic magneto-optical functionalities owing to their strong spin-charge coupling. Here, we demonstrate that a giant optical anisotropy can be controlled by magnetic fields in the vdW magnet FePS$_3$. The giant linear dichroism ($\sim$11%), observed below $T_{\text{N}}\!\sim\!120$ K, is nearly fully suppressed in a wide energy range from 1.6 to 2.0 eV, following the collapse of the zigzag magnetic order above 40 T. This remarkable phenomenon can be explained as a result of symmetry changes due to the spin order, enabling minority electrons of Fe$^{2+}$ to hop in a honeycomb lattice. The modification of spin-order symmetry by external fields provides a novel route for controllable anisotropic optical micro-devices.