npj Quantum Materials (Jun 2021)

Imaging the formation and surface phase separation of the CE phase

  • Haibiao Zhou,
  • Qiyuan Feng,
  • Yubin Hou,
  • Masao Nakamura,
  • Yoshinori Tokura,
  • Masashi Kawasaki,
  • Zhigao Sheng,
  • Qingyou Lu

DOI
https://doi.org/10.1038/s41535-021-00353-2
Journal volume & issue
Vol. 6, no. 1
pp. 1 – 8

Abstract

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Abstract The CE phase is an extraordinary phase exhibiting the simultaneous spin, charge, and orbital ordering due to strong electron correlation. It is an ideal platform to investigate the role of the multiple orderings in the phase transitions and discover emergent properties. Here, we use a cryogenic high-field magnetic force microscope to image the phase transitions and properties of the CE phase in a Pr0.5Ca0.5MnO3 thin film. In a high magnetic field, we observed a clear suppression of magnetic susceptibility at the charge-ordering insulator transition temperature (T COI), whereas, at the Néel temperature (T N), no significant change is observed. This observation favors the scenario of strong antiferromagnetic correlation developed below T COI but raises questions about the Zener polaron paramagnetic phase picture. Besides, we discoverd a phase-separated surface state in the CE phase regime. Ferromagnetic phase domains residing at the surface already exist in zero magnetic field and show ultra-high magnetic anisotropy. Our results provide microscopic insights into the unconventional spin- and charge-ordering transitions and revealed essential attributes of the CE phase, highlighting unusual behaviors when multiple electronic orderings are involved.