Orbital ordering in transition-metal compounds: I. The 120-degree model

M. Biskup; L. Chayes; Z. Nussinov

doi:10.1007/s00220-004-1272-7

Orbital ordering in transition-metal compounds: I. The 120-degree model

M. Biskup
, L. Chayes
, Z. Nussinov

Department of Physics

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

36 Scopus citations

Abstract

We study the classical version of the 120°-model. This is an attractive nearest-neighbor system in three dimensions with XY (rotor) spins and interaction such that only a particular projection of the spins gets coupled in each coordinate direction. Although the Hamiltonian has only discrete symmetries, it turns out that every constant field is a ground state. Employing a combination of spin-wave and contour arguments we establish the existence of long-range order at low temperatures. This suggests a mechanism for a type of ordering in certain models of transition-metal compounds where the very existence of long-range order has heretofore been a matter of some controversy.

Original language	English
Pages (from-to)	253-292
Number of pages	40
Journal	Communications in Mathematical Physics
Volume	255
Issue number	2
DOIs	https://doi.org/10.1007/s00220-004-1272-7
State	Published - Apr 2005

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abstract = "We study the classical version of the 120°-model. This is an attractive nearest-neighbor system in three dimensions with XY (rotor) spins and interaction such that only a particular projection of the spins gets coupled in each coordinate direction. Although the Hamiltonian has only discrete symmetries, it turns out that every constant field is a ground state. Employing a combination of spin-wave and contour arguments we establish the existence of long-range order at low temperatures. This suggests a mechanism for a type of ordering in certain models of transition-metal compounds where the very existence of long-range order has heretofore been a matter of some controversy.",

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AB - We study the classical version of the 120°-model. This is an attractive nearest-neighbor system in three dimensions with XY (rotor) spins and interaction such that only a particular projection of the spins gets coupled in each coordinate direction. Although the Hamiltonian has only discrete symmetries, it turns out that every constant field is a ground state. Employing a combination of spin-wave and contour arguments we establish the existence of long-range order at low temperatures. This suggests a mechanism for a type of ordering in certain models of transition-metal compounds where the very existence of long-range order has heretofore been a matter of some controversy.

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JF - Communications in Mathematical Physics

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ER -

Orbital ordering in transition-metal compounds: I. The 120-degree model

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