Non-altermagnetic spin texture in MnTe
Abstract
Recently, altermagnets have emerged as promising candidates in spintronics, uniquely combining large spin-polarized electronic states with zero net magnetization. A prominent example is -MnTe, whose altermagnetic spin splitting, i.e., the degeneracy lift in momentum space induced by collinear magnetic order, has been experimentally observed. However, the direct evidence of its -wave spin polarization, the key property for altermagnetic spintronics, is thus far lacking. By combining high-resolution spin- and angle-resolved photoemission spectroscopy (SARPES) with first-principles calculations, we reveal a -independent, Rashba-like spin texture in -MnTe. Our results indicate that the observed spin polarization is primarily governed by spin-orbit coupling, whereas the magnetic order contributes to the splitting of energy bands but plays a much less dominant role in spin polarization due to the multi-domain nature. From this result, we further establish a way to prescreen altermagnet candidates that favor the formation of large antiferromagnetic domains based on symmetry analysis. Our work elucidates the interplay between magnetic order and spin-orbit coupling in governing spin polarization in altermagnet candidates, and thereby advances the materials design paradigm for spin-functional devices.
Cite
@article{arxiv.2511.02447,
title = {Non-altermagnetic spin texture in MnTe},
author = {Meng Zeng and Pengfei Liu and Ming-Yuan Zhu and Naifu Zheng and Xiang-Rui Liu and Yu-Peng Zhu and Tian-Hao Shao and Yu-Jie Hao and Xiao-Ming Ma and Gexing Qu and Rafał Kurleto and Dawid Wutke and Rong-Hao Luo and Yue Dai and Xiaoqian Zhang and Koji Miyamoto and Kenya Shimada and Taichi Okuda and Kiyohisa Tanaka and Yaobo Huang and Qihang Liu and Chang Liu},
journal= {arXiv preprint arXiv:2511.02447},
year = {2025}
}
Comments
19 pages, 4 figures