Advanced Science (Sep 2024)

Electric‐Field Manipulation of Magnetic Chirality in a Homo‐Ferro‐Rotational Helimagnet

  • Junjie Yang,
  • Masaaki Matsuda,
  • Trevor Tyson,
  • Joshua Young,
  • William Ratcliff,
  • Yunpeng Gao,
  • Dimuthu Obeysekera,
  • Xiaoyu Guo,
  • Rachel Owen,
  • Liuyan Zhao,
  • Sang‐wook Cheong

DOI
https://doi.org/10.1002/advs.202402048
Journal volume & issue
Vol. 11, no. 33
pp. n/a – n/a

Abstract

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Abstract Ferro‐rotational (FR) materials, renowned for their distinctive material functionalities, present challenges in the growth of homo‐FR crystals (i.e., single FR domain). This study explores a cost‐effective approach to growing homo‐FR helimagnetic RbFe(SO4)2 (RFSO) crystals by lowering the crystal growth temperature below the TFR threshold using the high‐pressure hydrothermal method. Through polarized neutron diffraction experiments, it is observed that nearly 86% of RFSO crystals consist of a homo‐FR domain. Notably, RFSO displays remarkable stability in the FR phase, with an exceptionally high TFR of ≈573 K. Furthermore, RFSO exhibits a chiral helical magnetic structure with switchable ferroelectric polarization below 4 K. Importantly, external electric fields can induce a single magnetic domain state and manipulate its magnetic chirality. The findings suggest that the search for new FR magnets with outstanding material properties should consider magnetic sulfates as promising candidates.

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