Materials Research Express (Jan 2024)

Anomalous magnetic and electrical properties of disordered double perovskite alloy LaCaMnFeO6

  • T A Tran,
  • T P Hoang,
  • D T Khan,
  • A V Rutkauskas,
  • S E Kichanov,
  • N Q Tuan,
  • L V Truong-Son,
  • N T Dang,
  • T L Phan,
  • T T Trang,
  • A S Abiyev,
  • S H Jabarov,
  • A S Sklyarova,
  • E V Bolotov,
  • V S Zakhvalinskii

DOI
https://doi.org/10.1088/2053-1591/ad5f07
Journal volume & issue
Vol. 11, no. 7
p. 076101

Abstract

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Double perovskite alloys are of significant interest owing to their intriguing magnetic properties and potential practical applications. In this study, we provided a detailed report on the structural, electrical and magnetic features of the double perovskite LaCaMnFeO _6 , prepared via the conventional solid-state reaction technique. Neutron diffraction analysis showed that the sample is single-phase adopting the Pnma orthorhombic structure with random distribution of La ^3+ /Ca ^2+ and Mn ^4+ /Fe ^3+ ions on A- and B-sites, respectively. A long-range G-type antiferromagnetic order was formed below T _N = 250 K. Magnetic measurements unveiled a cluster glassy behavior at low temperatures with a complex distribution of cluster magnetic anisotropy energy. Ferromagnetic clusters consisting of two Mn ^4+ and one Fe ^3+ were found to exist in the paramagnetic phase. The complex magnetic properties of LaCaMnFeO _6 are attributed to the cation disorder effect combined with the competition between magnetic interactions. Unusual electrical behavior with a large positive magnetoresistive effect was observed and correlated to magnetic phase transitions.

Keywords