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Main Authors: Liao, Wei-Hsiang, Webb, Joshua S., Xue, Yu-Hui, Zhang, Yao, Chang, Yu-Ying, Hashmi, Muhammad Ali, Hunt, Patricia A., Granville, Simon, Shao, Yu-Cheng, Hanif, Muhammad, Hsu, Hua-Shu
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2502.18070
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author Liao, Wei-Hsiang
Webb, Joshua S.
Xue, Yu-Hui
Zhang, Yao
Chang, Yu-Ying
Hashmi, Muhammad Ali
Hunt, Patricia A.
Granville, Simon
Shao, Yu-Cheng
Hanif, Muhammad
Hsu, Hua-Shu
author_facet Liao, Wei-Hsiang
Webb, Joshua S.
Xue, Yu-Hui
Zhang, Yao
Chang, Yu-Ying
Hashmi, Muhammad Ali
Hunt, Patricia A.
Granville, Simon
Shao, Yu-Cheng
Hanif, Muhammad
Hsu, Hua-Shu
contents Recent studies have demonstrated that magnetization switching in ferromagnets can be achieved through adsorbing chiral molecules on the surface without the need for current or external magnetic fields, offering a low-power mechanism for applications in spintronic devices. Opposite chirality molecules cause opposite direction reversals of magnetization through the chiral-induced spin selectivity (CISS) mechanism. In this study, we demonstrate bidirectional magnetization switching in thin films of ferrimagnetic insulator TmIG using a single chirality molecule - a Cu metallopolymer of d-leucine. Through UV-VIS circular dichroism and X-ray absorption spectroscopy, we determined that switching between different magnetic orientations is associated with interactions of the d-leucine with the two distinct sublattices of the Fe ions in the TmIG, at octahedral and tetrahedral sites. Our study demonstrates the unexpected versatility of the CISS mechanism for magnetization switching in ferrimagnets using single chirality materials, thereby expanding the potential applications of chiral molecule adsorption-induced magnetization flipping.
format Preprint
id arxiv_https___arxiv_org_abs_2502_18070
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Bidirectional magnetization switching of a ferrimagnetic insulator with monochiral molecules
Liao, Wei-Hsiang
Webb, Joshua S.
Xue, Yu-Hui
Zhang, Yao
Chang, Yu-Ying
Hashmi, Muhammad Ali
Hunt, Patricia A.
Granville, Simon
Shao, Yu-Cheng
Hanif, Muhammad
Hsu, Hua-Shu
Applied Physics
Recent studies have demonstrated that magnetization switching in ferromagnets can be achieved through adsorbing chiral molecules on the surface without the need for current or external magnetic fields, offering a low-power mechanism for applications in spintronic devices. Opposite chirality molecules cause opposite direction reversals of magnetization through the chiral-induced spin selectivity (CISS) mechanism. In this study, we demonstrate bidirectional magnetization switching in thin films of ferrimagnetic insulator TmIG using a single chirality molecule - a Cu metallopolymer of d-leucine. Through UV-VIS circular dichroism and X-ray absorption spectroscopy, we determined that switching between different magnetic orientations is associated with interactions of the d-leucine with the two distinct sublattices of the Fe ions in the TmIG, at octahedral and tetrahedral sites. Our study demonstrates the unexpected versatility of the CISS mechanism for magnetization switching in ferrimagnets using single chirality materials, thereby expanding the potential applications of chiral molecule adsorption-induced magnetization flipping.
title Bidirectional magnetization switching of a ferrimagnetic insulator with monochiral molecules
topic Applied Physics
url https://arxiv.org/abs/2502.18070