Advanced Physics Research (Jul 2023)

Observation of the Chiral Soliton Lattice above Room Temperature

  • R. Brearton,
  • S. H. Moody,
  • L. A. Turnbull,
  • P. D. Hatton,
  • A. Štefančič,
  • G. Balakrishnan,
  • G. van der Laan,
  • T. Hesjedal

DOI
https://doi.org/10.1002/apxr.202200116
Journal volume & issue
Vol. 2, no. 7
pp. n/a – n/a

Abstract

Read online

Abstract Magnetic chiral soliton lattices (CSLs) emerge from the helical phase in chiral magnets when magnetic fields are applied perpendicular to the helical propagation vector, and they show great promise for next‐generation magnetic memory applications. These one‐dimensional structures are previously observed at low temperatures in samples with uniaxial symmetry. Here, it is found that in‐plane fields are the key to stabilizing the CSL in cubic Co8Zn10Mn2 over the entire temperature range from 15 K to below the Curie temperature (365 K). Using small‐angle resonant elastic X‐ray scattering, it is observed that the CSL is stabilized with an arbitrary in‐plane propagation vector, while its thin plate geometry plays a deciding role in the soliton wavelength as a function of applied field. This work paves the way for high temperature, real world applications of soliton physics in future magnetic memory devices.

Keywords