Quasi-two-dimensional spin correlations in the triangular lattice bilayer spin glass LuCoGaO4

K. Fritsch; K. A. Ross; G. E. Granroth; G. Ehlers; H. M.L. Noad; H. A. Dabkowska; B. D. Gaulin

doi:10.1103/PhysRevB.96.094414

Quasi-two-dimensional spin correlations in the triangular lattice bilayer spin glass LuCoGaO4

K. Fritsch
, K. A. Ross
, G. E. Granroth
, G. Ehlers
, H. M.L. Noad
, H. A. Dabkowska
, B. D. Gaulin

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

9 Scopus citations

Abstract

We present a single-crystal time-of-flight neutron scattering study of the static and dynamic spin correlations in LuCoGaO4, a quasi-two-dimensional dilute triangular lattice antiferromagnetic spin-glass material. This system is based on Co2+ ions that are randomly distributed on triangular bilayers within the YbFe2O4-type, hexagonal crystal structure. Antiferromagnetic short-range two-dimensional correlations at wave vectors Q=1/3,1/3,L develop within the bilayers at temperatures as high as |ΘCW|∼100 K and extend over roughly five unit cells at temperatures below Tg=19 K. These two-dimensional static correlations are observed as diffuse rods of neutron scattering intensity along c∗ and display a continuous spin freezing process in their energy dependence. Aside from exhibiting these typical spin-glass characteristics, this insulating material reveals a novel gapped magnetic resonant spin excitation at ΔE∼12meV localized around Q=1/3,1/3,L. The temperature dependence of the spin gap associated with this two-dimensional excitation correlates with the evolution of the static correlations into the spin-glass state ground state. We associate it with the effect of the staggered exchange field acting on the Seff=1/2 Ising-like doublet of the Co2+ moments.

Original language	English
Article number	094414
Journal	Physical Review B
Volume	96
Issue number	9
DOIs	https://doi.org/10.1103/PhysRevB.96.094414
State	Published - Sep 13 2017

Funding

Work at McMaster University was supported by NSERC of Canada. The research at Oak Ridge National Laboratory's Spallation Neutron Source was sponsored by the Scientific User Facilities Division, Office of Basic Energy Sciences, U.S. Department of Energy. The data were reduced using Mantid and analyzed using the horace software package . The powder average of the single-crystal data was performed in the dave software package .

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10.1103/PhysRevB.96.094414

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title = "Quasi-two-dimensional spin correlations in the triangular lattice bilayer spin glass LuCoGaO4",

abstract = "We present a single-crystal time-of-flight neutron scattering study of the static and dynamic spin correlations in LuCoGaO4, a quasi-two-dimensional dilute triangular lattice antiferromagnetic spin-glass material. This system is based on Co2+ ions that are randomly distributed on triangular bilayers within the YbFe2O4-type, hexagonal crystal structure. Antiferromagnetic short-range two-dimensional correlations at wave vectors Q=1/3,1/3,L develop within the bilayers at temperatures as high as |ΘCW|∼100 K and extend over roughly five unit cells at temperatures below Tg=19 K. These two-dimensional static correlations are observed as diffuse rods of neutron scattering intensity along c∗ and display a continuous spin freezing process in their energy dependence. Aside from exhibiting these typical spin-glass characteristics, this insulating material reveals a novel gapped magnetic resonant spin excitation at ΔE∼12meV localized around Q=1/3,1/3,L. The temperature dependence of the spin gap associated with this two-dimensional excitation correlates with the evolution of the static correlations into the spin-glass state ground state. We associate it with the effect of the staggered exchange field acting on the Seff=1/2 Ising-like doublet of the Co2+ moments.",

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AU - Fritsch, K.

AU - Ross, K. A.

AU - Granroth, G. E.

AU - Ehlers, G.

AU - Noad, H. M.L.

AU - Dabkowska, H. A.

AU - Gaulin, B. D.

PY - 2017/9/13

Y1 - 2017/9/13

N2 - We present a single-crystal time-of-flight neutron scattering study of the static and dynamic spin correlations in LuCoGaO4, a quasi-two-dimensional dilute triangular lattice antiferromagnetic spin-glass material. This system is based on Co2+ ions that are randomly distributed on triangular bilayers within the YbFe2O4-type, hexagonal crystal structure. Antiferromagnetic short-range two-dimensional correlations at wave vectors Q=1/3,1/3,L develop within the bilayers at temperatures as high as |ΘCW|∼100 K and extend over roughly five unit cells at temperatures below Tg=19 K. These two-dimensional static correlations are observed as diffuse rods of neutron scattering intensity along c∗ and display a continuous spin freezing process in their energy dependence. Aside from exhibiting these typical spin-glass characteristics, this insulating material reveals a novel gapped magnetic resonant spin excitation at ΔE∼12meV localized around Q=1/3,1/3,L. The temperature dependence of the spin gap associated with this two-dimensional excitation correlates with the evolution of the static correlations into the spin-glass state ground state. We associate it with the effect of the staggered exchange field acting on the Seff=1/2 Ising-like doublet of the Co2+ moments.

AB - We present a single-crystal time-of-flight neutron scattering study of the static and dynamic spin correlations in LuCoGaO4, a quasi-two-dimensional dilute triangular lattice antiferromagnetic spin-glass material. This system is based on Co2+ ions that are randomly distributed on triangular bilayers within the YbFe2O4-type, hexagonal crystal structure. Antiferromagnetic short-range two-dimensional correlations at wave vectors Q=1/3,1/3,L develop within the bilayers at temperatures as high as |ΘCW|∼100 K and extend over roughly five unit cells at temperatures below Tg=19 K. These two-dimensional static correlations are observed as diffuse rods of neutron scattering intensity along c∗ and display a continuous spin freezing process in their energy dependence. Aside from exhibiting these typical spin-glass characteristics, this insulating material reveals a novel gapped magnetic resonant spin excitation at ΔE∼12meV localized around Q=1/3,1/3,L. The temperature dependence of the spin gap associated with this two-dimensional excitation correlates with the evolution of the static correlations into the spin-glass state ground state. We associate it with the effect of the staggered exchange field acting on the Seff=1/2 Ising-like doublet of the Co2+ moments.

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Quasi-two-dimensional spin correlations in the triangular lattice bilayer spin glass LuCoGaO4

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