Lattice-coupled antiferromagnet on frustrated lattices

Chenglong Jia; Jung Ho Nam; June Seo Kim; Jung Hoon Han

doi:10.1103/PhysRevB.71.212406

Lattice-coupled antiferromagnet on frustrated lattices

Chenglong Jia
, Jung Ho Nam
, June Seo Kim
, Jung Hoon Han

Department of Physics

Sungkyunkwan University

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

17 Scopus citations

Abstract

The lattice-coupled antiferromagnetic spin model is analyzed for a number of frustrated lattices: triangular, Kagomé, and pyrochlore. We show, within the mean-field theory, that the classical ground state is free of lattice deformation in the triangular, Kagomé, and the tetrahedron-based, q=0, Eg phonon mode of the pyrochlore lattice. The q=0, Eu phonon mode of pyrochlore is shown to have an energy gain of -2α2 per spin over the undistorted ground state, where α is the spin-lattice interaction strength. Motivated by the picture of the hexagon spin cluster proposed in the recent experiment on ZnCr2O4 [S. H. Lee, Nature (London) 418, 856 (2002)], we also analyze the hexagon-based distortion within our model. Hexagon distortions give rise to mutually orthogonal arrangement of spins for nearby hexagons, and has an energy gain of -α2 2 per spin. A general criterion for the lattice instability in the spin-lattice model is discussed.

Original language	English
Article number	212406
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	71
Issue number	21
DOIs	https://doi.org/10.1103/PhysRevB.71.212406
State	Published - 1 Jun 2005

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10.1103/PhysRevB.71.212406

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title = "Lattice-coupled antiferromagnet on frustrated lattices",

abstract = "The lattice-coupled antiferromagnetic spin model is analyzed for a number of frustrated lattices: triangular, Kagom{\'e}, and pyrochlore. We show, within the mean-field theory, that the classical ground state is free of lattice deformation in the triangular, Kagom{\'e}, and the tetrahedron-based, q=0, Eg phonon mode of the pyrochlore lattice. The q=0, Eu phonon mode of pyrochlore is shown to have an energy gain of -2α2 per spin over the undistorted ground state, where α is the spin-lattice interaction strength. Motivated by the picture of the hexagon spin cluster proposed in the recent experiment on ZnCr2O4 [S. H. Lee, Nature (London) 418, 856 (2002)], we also analyze the hexagon-based distortion within our model. Hexagon distortions give rise to mutually orthogonal arrangement of spins for nearby hexagons, and has an energy gain of -α2 2 per spin. A general criterion for the lattice instability in the spin-lattice model is discussed.",

author = "Chenglong Jia and Nam, \{Jung Ho\} and Kim, \{June Seo\} and Han, \{Jung Hoon\}",

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doi = "10.1103/PhysRevB.71.212406",

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T1 - Lattice-coupled antiferromagnet on frustrated lattices

AU - Jia, Chenglong

AU - Nam, Jung Ho

AU - Kim, June Seo

AU - Han, Jung Hoon

PY - 2005/6/1

Y1 - 2005/6/1

N2 - The lattice-coupled antiferromagnetic spin model is analyzed for a number of frustrated lattices: triangular, Kagomé, and pyrochlore. We show, within the mean-field theory, that the classical ground state is free of lattice deformation in the triangular, Kagomé, and the tetrahedron-based, q=0, Eg phonon mode of the pyrochlore lattice. The q=0, Eu phonon mode of pyrochlore is shown to have an energy gain of -2α2 per spin over the undistorted ground state, where α is the spin-lattice interaction strength. Motivated by the picture of the hexagon spin cluster proposed in the recent experiment on ZnCr2O4 [S. H. Lee, Nature (London) 418, 856 (2002)], we also analyze the hexagon-based distortion within our model. Hexagon distortions give rise to mutually orthogonal arrangement of spins for nearby hexagons, and has an energy gain of -α2 2 per spin. A general criterion for the lattice instability in the spin-lattice model is discussed.

AB - The lattice-coupled antiferromagnetic spin model is analyzed for a number of frustrated lattices: triangular, Kagomé, and pyrochlore. We show, within the mean-field theory, that the classical ground state is free of lattice deformation in the triangular, Kagomé, and the tetrahedron-based, q=0, Eg phonon mode of the pyrochlore lattice. The q=0, Eu phonon mode of pyrochlore is shown to have an energy gain of -2α2 per spin over the undistorted ground state, where α is the spin-lattice interaction strength. Motivated by the picture of the hexagon spin cluster proposed in the recent experiment on ZnCr2O4 [S. H. Lee, Nature (London) 418, 856 (2002)], we also analyze the hexagon-based distortion within our model. Hexagon distortions give rise to mutually orthogonal arrangement of spins for nearby hexagons, and has an energy gain of -α2 2 per spin. A general criterion for the lattice instability in the spin-lattice model is discussed.

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DO - 10.1103/PhysRevB.71.212406

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JO - Physical Review B - Condensed Matter and Materials Physics

JF - Physical Review B - Condensed Matter and Materials Physics

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M1 - 212406

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Lattice-coupled antiferromagnet on frustrated lattices

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