Orbital degeneracy removed by charge order in triangular antiferromagnet AgNiO2

E. Wawrzyńska; R. Coldea; E. M. Wheeler; I. I. Mazin; M. D. Johannes; T. Sörgel; M. Jansen; R. M. Ibberson; P. G. Radaelli

doi:10.1103/PhysRevLett.99.157204

Orbital degeneracy removed by charge order in triangular antiferromagnet AgNiO2

E. Wawrzyńska
, R. Coldea
, E. M. Wheeler
, I. I. Mazin
, M. D. Johannes
, T. Sörgel
, M. Jansen
, R. M. Ibberson
, P. G. Radaelli

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

65 Scopus citations

Abstract

We report a high-resolution neutron diffraction study on the orbitally degenerate spin-1/2 hexagonal metallic antiferromagnet AgNiO2. A structural transition to a tripled unit cell with expanded and contracted NiO6 octahedra indicates 3×3 charge order on the Ni triangular lattice. This suggests charge order as a possible mechanism of lifting the orbital degeneracy in the presence of charge fluctuations, as an alternative to the more usual Jahn-Teller distortions. A novel magnetic ground state is observed at low temperatures with the electron-rich S=1 Ni sites arranged in alternating ferromagnetic rows on a triangular lattice, surrounded by a honeycomb network of nonmagnetic and metallic Ni ions. We also report first-principles band-structure calculations that explain microscopically the origin of these phenomena.

Original language	English
Article number	157204
Journal	Physical Review Letters
Volume	99
Issue number	15
DOIs	https://doi.org/10.1103/PhysRevLett.99.157204
State	Published - Oct 11 2007
Externally published	Yes

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title = "Orbital degeneracy removed by charge order in triangular antiferromagnet AgNiO2",

abstract = "We report a high-resolution neutron diffraction study on the orbitally degenerate spin-1/2 hexagonal metallic antiferromagnet AgNiO2. A structural transition to a tripled unit cell with expanded and contracted NiO6 octahedra indicates 3×3 charge order on the Ni triangular lattice. This suggests charge order as a possible mechanism of lifting the orbital degeneracy in the presence of charge fluctuations, as an alternative to the more usual Jahn-Teller distortions. A novel magnetic ground state is observed at low temperatures with the electron-rich S=1 Ni sites arranged in alternating ferromagnetic rows on a triangular lattice, surrounded by a honeycomb network of nonmagnetic and metallic Ni ions. We also report first-principles band-structure calculations that explain microscopically the origin of these phenomena.",

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doi = "10.1103/PhysRevLett.99.157204",

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T1 - Orbital degeneracy removed by charge order in triangular antiferromagnet AgNiO2

AU - Wawrzyńska, E.

AU - Coldea, R.

AU - Wheeler, E. M.

AU - Mazin, I. I.

AU - Johannes, M. D.

AU - Sörgel, T.

AU - Jansen, M.

AU - Ibberson, R. M.

AU - Radaelli, P. G.

PY - 2007/10/11

Y1 - 2007/10/11

N2 - We report a high-resolution neutron diffraction study on the orbitally degenerate spin-1/2 hexagonal metallic antiferromagnet AgNiO2. A structural transition to a tripled unit cell with expanded and contracted NiO6 octahedra indicates 3×3 charge order on the Ni triangular lattice. This suggests charge order as a possible mechanism of lifting the orbital degeneracy in the presence of charge fluctuations, as an alternative to the more usual Jahn-Teller distortions. A novel magnetic ground state is observed at low temperatures with the electron-rich S=1 Ni sites arranged in alternating ferromagnetic rows on a triangular lattice, surrounded by a honeycomb network of nonmagnetic and metallic Ni ions. We also report first-principles band-structure calculations that explain microscopically the origin of these phenomena.

AB - We report a high-resolution neutron diffraction study on the orbitally degenerate spin-1/2 hexagonal metallic antiferromagnet AgNiO2. A structural transition to a tripled unit cell with expanded and contracted NiO6 octahedra indicates 3×3 charge order on the Ni triangular lattice. This suggests charge order as a possible mechanism of lifting the orbital degeneracy in the presence of charge fluctuations, as an alternative to the more usual Jahn-Teller distortions. A novel magnetic ground state is observed at low temperatures with the electron-rich S=1 Ni sites arranged in alternating ferromagnetic rows on a triangular lattice, surrounded by a honeycomb network of nonmagnetic and metallic Ni ions. We also report first-principles band-structure calculations that explain microscopically the origin of these phenomena.

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DO - 10.1103/PhysRevLett.99.157204

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JO - Physical Review Letters

JF - Physical Review Letters

IS - 15

M1 - 157204

ER -

Orbital degeneracy removed by charge order in triangular antiferromagnet AgNiO2

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