Magnetic Behavior of Volborthite Cu3 V2 O7 (OH)2·2 H2 O Determined by Coupled Trimers Rather than Frustrated Chains

O. Janson; S. Furukawa; T. Momoi; P. Sindzingre; J. Richter; K. Held

doi:10.1103/PhysRevLett.117.037206

Magnetic Behavior of Volborthite Cu3 V2 O7 (OH)2·2 H2 O Determined by Coupled Trimers Rather than Frustrated Chains

O. Janson, S. Furukawa, T. Momoi, P. Sindzingre, J. Richter, K. Held

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

40 Citations (Scopus)

Abstract

Motivated by recent experiments on volborthite single crystals showing a wide 13-magnetization plateau, we perform microscopic modeling by means of density functional theory (DFT) with the single-crystal structural data as a starting point. Using DFT+U, we find four leading magnetic exchanges: antiferromagnetic J and J2, as well as ferromagnetic J′ and J1. Simulations of the derived spin Hamiltonian show good agreement with the experimental low-field magnetic susceptibility and high-field magnetization data. The 13-plateau phase pertains to polarized magnetic trimers formed by strong J bonds. An effective J→ model shows a tendency towards condensation of magnon bound states preceding the plateau phase.

Original language	English
Article number	037206
Journal	Physical review letters
Volume	117
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevLett.117.037206
Publication status	Published - 2016 Jul 12
Externally published	Yes

ASJC Scopus subject areas

Physics and Astronomy(all)

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10.1103/PhysRevLett.117.037206

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title = "Magnetic Behavior of Volborthite Cu3 V2 O7 (OH)2·2 H2 O Determined by Coupled Trimers Rather than Frustrated Chains",

abstract = "Motivated by recent experiments on volborthite single crystals showing a wide 13-magnetization plateau, we perform microscopic modeling by means of density functional theory (DFT) with the single-crystal structural data as a starting point. Using DFT+U, we find four leading magnetic exchanges: antiferromagnetic J and J2, as well as ferromagnetic J′ and J1. Simulations of the derived spin Hamiltonian show good agreement with the experimental low-field magnetic susceptibility and high-field magnetization data. The 13-plateau phase pertains to polarized magnetic trimers formed by strong J bonds. An effective J→ model shows a tendency towards condensation of magnon bound states preceding the plateau phase.",

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AU - Janson, O.

AU - Furukawa, S.

AU - Momoi, T.

AU - Sindzingre, P.

AU - Richter, J.

AU - Held, K.

PY - 2016/7/12

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N2 - Motivated by recent experiments on volborthite single crystals showing a wide 13-magnetization plateau, we perform microscopic modeling by means of density functional theory (DFT) with the single-crystal structural data as a starting point. Using DFT+U, we find four leading magnetic exchanges: antiferromagnetic J and J2, as well as ferromagnetic J′ and J1. Simulations of the derived spin Hamiltonian show good agreement with the experimental low-field magnetic susceptibility and high-field magnetization data. The 13-plateau phase pertains to polarized magnetic trimers formed by strong J bonds. An effective J→ model shows a tendency towards condensation of magnon bound states preceding the plateau phase.

AB - Motivated by recent experiments on volborthite single crystals showing a wide 13-magnetization plateau, we perform microscopic modeling by means of density functional theory (DFT) with the single-crystal structural data as a starting point. Using DFT+U, we find four leading magnetic exchanges: antiferromagnetic J and J2, as well as ferromagnetic J′ and J1. Simulations of the derived spin Hamiltonian show good agreement with the experimental low-field magnetic susceptibility and high-field magnetization data. The 13-plateau phase pertains to polarized magnetic trimers formed by strong J bonds. An effective J→ model shows a tendency towards condensation of magnon bound states preceding the plateau phase.

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Magnetic Behavior of Volborthite Cu3 V2 O7 (OH)2·2 H2 O Determined by Coupled Trimers Rather than Frustrated Chains

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