Field-induced criticality in a gapped quantum magnet with bond disorder

D. Huvonen; S. Zhao; M. Mansson; Mark Laver

doi:10.1103/PhysRevB.85.100410

Field-induced criticality in a gapped quantum magnet with bond disorder

D. Huvonen, S. Zhao, M. Mansson, Mark Laver

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Abstract

Neutron diffraction and calorimetric measurements are used to study the field-induced quantum phase transition in piperazinium-Cu ₂(Cl _1-xBr _x) ₆ (x=0, 3.5%, and 7.5%), a prototypical quantum antiferromagnet with random bonds. The critical indexes φ and β are determined. The findings contradict some original predictions for Bose glass based on the assumption z=d, but are consistent with recent theoretical results implying z≤d. Inelastic neutron experiments reveal that disorder has a profound effect on the lowest-energy magnetic gap excitation in the system.

Original language	English
Journal	Physical Review B
Volume	85
Issue number	10
Pages (from-to)	100410
ISSN	2469-9950
DOIs	https://doi.org/10.1103/PhysRevB.85.100410
Publication status	Published - 30 Mar 2012

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10.1103/PhysRevB.85.100410

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abstract = "Neutron diffraction and calorimetric measurements are used to study the field-induced quantum phase transition in piperazinium-Cu 2(Cl 1-xBr x) 6 (x=0, 3.5%, and 7.5%), a prototypical quantum antiferromagnet with random bonds. The critical indexes φ and β are determined. The findings contradict some original predictions for Bose glass based on the assumption z=d, but are consistent with recent theoretical results implying z≤d. Inelastic neutron experiments reveal that disorder has a profound effect on the lowest-energy magnetic gap excitation in the system.",

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AU - Zhao, S.

AU - Mansson, M.

AU - Laver, Mark

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N2 - Neutron diffraction and calorimetric measurements are used to study the field-induced quantum phase transition in piperazinium-Cu 2(Cl 1-xBr x) 6 (x=0, 3.5%, and 7.5%), a prototypical quantum antiferromagnet with random bonds. The critical indexes φ and β are determined. The findings contradict some original predictions for Bose glass based on the assumption z=d, but are consistent with recent theoretical results implying z≤d. Inelastic neutron experiments reveal that disorder has a profound effect on the lowest-energy magnetic gap excitation in the system.

AB - Neutron diffraction and calorimetric measurements are used to study the field-induced quantum phase transition in piperazinium-Cu 2(Cl 1-xBr x) 6 (x=0, 3.5%, and 7.5%), a prototypical quantum antiferromagnet with random bonds. The critical indexes φ and β are determined. The findings contradict some original predictions for Bose glass based on the assumption z=d, but are consistent with recent theoretical results implying z≤d. Inelastic neutron experiments reveal that disorder has a profound effect on the lowest-energy magnetic gap excitation in the system.

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DO - 10.1103/PhysRevB.85.100410

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JO - Physical Review B

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Field-induced criticality in a gapped quantum magnet with bond disorder

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