Electronic and magneto-optical properties of rare-earth orthoferrites RFeO3 (R = Y, Sm, Eu, Gd and Lu)

Nirpendra Singh; Joo Yull Rhee; S. Auluck

doi:10.3938/jkps.53.806

Electronic and magneto-optical properties of rare-earth orthoferrites RFeO₃ (R = Y, Sm, Eu, Gd and Lu)

Nirpendra Singh
, Joo Yull Rhee
, S. Auluck

Physics

Sungkyunkwan University
Indian Institute of Technology Kanpur

Research output: Contribution to journal › Article › peer-review

64 Scopus citations

Abstract

Orthorhombic rare-earth orthoferrites are studied using density-functional theory. The electronic, optical and magneto-optical properties are investigated in both ferromagnetic (FM) and anti-ferromagnetic (AFM) phases. Our calculations show that the antiferromagnetic phase is energetically favorable. The calculated complex Kerr rotation of YFeO₃ is in good agreement with the experimental data. Our calculations yield a value of the magneto-optical Kerr angle between -0.4 to 0.4 degrees. To see the resemblance between the complex Kerr rotation and complex optical conductivity, we also have calculated the diagonal and the off-diagonal components of the optical-conductivity tensor.

Original language	British English
Pages (from-to)	806-811
Number of pages	6
Journal	Journal of the Korean Physical Society
Volume	53
Issue number	2
DOIs	https://doi.org/10.3938/jkps.53.806
State	Published - Aug 2008

Keywords

Density-functional calculations
Magnetic moments
Orthoferrites

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Cite this

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abstract = "Orthorhombic rare-earth orthoferrites are studied using density-functional theory. The electronic, optical and magneto-optical properties are investigated in both ferromagnetic (FM) and anti-ferromagnetic (AFM) phases. Our calculations show that the antiferromagnetic phase is energetically favorable. The calculated complex Kerr rotation of YFeO3 is in good agreement with the experimental data. Our calculations yield a value of the magneto-optical Kerr angle between -0.4 to 0.4 degrees. To see the resemblance between the complex Kerr rotation and complex optical conductivity, we also have calculated the diagonal and the off-diagonal components of the optical-conductivity tensor.",

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AU - Auluck, S.

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N2 - Orthorhombic rare-earth orthoferrites are studied using density-functional theory. The electronic, optical and magneto-optical properties are investigated in both ferromagnetic (FM) and anti-ferromagnetic (AFM) phases. Our calculations show that the antiferromagnetic phase is energetically favorable. The calculated complex Kerr rotation of YFeO3 is in good agreement with the experimental data. Our calculations yield a value of the magneto-optical Kerr angle between -0.4 to 0.4 degrees. To see the resemblance between the complex Kerr rotation and complex optical conductivity, we also have calculated the diagonal and the off-diagonal components of the optical-conductivity tensor.

AB - Orthorhombic rare-earth orthoferrites are studied using density-functional theory. The electronic, optical and magneto-optical properties are investigated in both ferromagnetic (FM) and anti-ferromagnetic (AFM) phases. Our calculations show that the antiferromagnetic phase is energetically favorable. The calculated complex Kerr rotation of YFeO3 is in good agreement with the experimental data. Our calculations yield a value of the magneto-optical Kerr angle between -0.4 to 0.4 degrees. To see the resemblance between the complex Kerr rotation and complex optical conductivity, we also have calculated the diagonal and the off-diagonal components of the optical-conductivity tensor.

KW - Density-functional calculations

KW - Magnetic moments

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