Absence of magnetic long range order in Y2CrSbO7: bond-disorder induced magnetic frustration in a ferromagnetic pyrochlore

Lingjia Shen; Colin Greaves; Randeep Riyat; Thomas Hansen; Elizabeth Blackburn

doi:10.1103/PhysRevB.96.094438

Absence of magnetic long range order in Y2CrSbO7: bond-disorder induced magnetic frustration in a ferromagnetic pyrochlore

Lingjia Shen, Colin Greaves, Randeep Riyat, Thomas Hansen, Elizabeth Blackburn

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

3 Citations (Scopus)

194 Downloads (Pure)

Abstract

The consequences of random nonmagnetic-ion dilution for the pyrochlore family Y2(M1−xNx )2O7 (M = magnetic ion, N = nonmagnetic ion) have been investigated. As a first step, we experimentally examine the magnetic properties of Y2CrSbO7 (x = 0.5), in which the magnetic sites (Cr3+) are percolative. Although the effective Cr-Cr spin exchange is ferromagnetic, as evidenced by a positive Curie-Weiss temperature, CW 19.5 K, our high-resolution neutron powder diffraction measurements detect no sign of magnetic long-range order down to 2 K. In order to understand our observations, we construct a lattice model to numerically study the bond disorder introduced by the ionic size mismatch between M and N, which reveals that the bond disorder percolates at xb 0.23, explaining the absence of magnetic long-range order. This model could be applied to a series of frustrated magnets with a pyrochlore sublattice, for example, the spinel compound Zn(Cr1−xGax )2O4, wherein a Néel to spin glass phase transition occurs between x = 0.2 and 0.25 [Lee et al., Phys. Rev. B 77, 014405 (2008)]. Our study stresses the non-negligible role of bond disorder on magnetic frustration, even in ferromagnets. D

Original language	English
Article number	094438
Journal	Physical Review B
Volume	96
DOIs	https://doi.org/10.1103/PhysRevB.96.094438
Publication status	Published - 28 Sept 2017

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10.1103/PhysRevB.96.094438

Shen2017_SGRH
Checked for eligibility: 29/09/2017 https://journals.aps.org/prb/abstract/10.1103/PhysRevB.96.094438 Absence of magnetic long-range order in Y2CrSbO7 : Bond-disorder-induced magnetic frustration in a ferromagnetic pyrochlore. L. Shen, C. Greaves, R. Riyat, T. C. Hansen, and E. Blackburn.Phys. Rev. B 96, 094438 ©2017 American Physical Society. All rights reserved.
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3 Citations
2 Article

Magnetic ordering in the pyrochlore Ho₂CrSbO₇ determined from neutron diffraction, and the magnetic properties of other RE₂CrSbO₇ phases (RE=Y, Tb, Dy, Er)
Whitaker, M. J. & Greaves, C., 1 Jul 2014, In: Journal of Solid State Chemistry. 215, p. 171-175
Research output: Contribution to journal › Article › peer-review

Open Access
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12 Citations (Scopus)

395 Downloads (Pure)
Structural and magnetic characterisation of the pyrochlores Bi_2-xFe_x(FeSb)O₇, (x = 0.1, 0.2, 0.3), Nd_1.8Fe_0.2(FeSb)O₇ and Pr₂(FeSb)O₇
Whitaker, M., Marco, J. F., Berry, F., Raith, C., Blackburn, E. & Greaves, C., Feb 2013, In: Journal of Solid State Chemistry. 198, p. 316-322
Research output: Contribution to journal › Article › peer-review
15 Citations (Scopus)

2 Finished

Functional materials derived from the schafarzikite mineral framework
Greaves, C., Horswell, S. & Read, M.
Engineering & Physical Science Research Council
1/01/14 → 31/12/16
Project: Research Councils
Scattering Studies of Emergent Phenomena at Extreme Conditions of Magnetic Field and Temperature
Blackburn, E. & Forgan, T.
Engineering & Physical Science Research Council
1/07/12 → 31/12/15
Project: Research

Cite this

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title = "Absence of magnetic long range order in Y2CrSbO7: bond-disorder induced magnetic frustration in a ferromagnetic pyrochlore",

abstract = "The consequences of random nonmagnetic-ion dilution for the pyrochlore family Y2(M1−xNx )2O7 (M = magnetic ion, N = nonmagnetic ion) have been investigated. As a first step, we experimentally examine the magnetic properties of Y2CrSbO7 (x = 0.5), in which the magnetic sites (Cr3+) are percolative. Although the effective Cr-Cr spin exchange is ferromagnetic, as evidenced by a positive Curie-Weiss temperature, CW 19.5 K, our high-resolution neutron powder diffraction measurements detect no sign of magnetic long-range order down to 2 K. In order to understand our observations, we construct a lattice model to numerically study the bond disorder introduced by the ionic size mismatch between M and N, which reveals that the bond disorder percolates at xb 0.23, explaining the absence of magnetic long-range order. This model could be applied to a series of frustrated magnets with a pyrochlore sublattice, for example, the spinel compound Zn(Cr1−xGax )2O4, wherein a N{\'e}el to spin glass phase transition occurs between x = 0.2 and 0.25 [Lee et al., Phys. Rev. B 77, 014405 (2008)]. Our study stresses the non-negligible role of bond disorder on magnetic frustration, even in ferromagnets. D",

author = "Lingjia Shen and Colin Greaves and Randeep Riyat and Thomas Hansen and Elizabeth Blackburn",

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AU - Hansen, Thomas

AU - Blackburn, Elizabeth

PY - 2017/9/28

Y1 - 2017/9/28

N2 - The consequences of random nonmagnetic-ion dilution for the pyrochlore family Y2(M1−xNx )2O7 (M = magnetic ion, N = nonmagnetic ion) have been investigated. As a first step, we experimentally examine the magnetic properties of Y2CrSbO7 (x = 0.5), in which the magnetic sites (Cr3+) are percolative. Although the effective Cr-Cr spin exchange is ferromagnetic, as evidenced by a positive Curie-Weiss temperature, CW 19.5 K, our high-resolution neutron powder diffraction measurements detect no sign of magnetic long-range order down to 2 K. In order to understand our observations, we construct a lattice model to numerically study the bond disorder introduced by the ionic size mismatch between M and N, which reveals that the bond disorder percolates at xb 0.23, explaining the absence of magnetic long-range order. This model could be applied to a series of frustrated magnets with a pyrochlore sublattice, for example, the spinel compound Zn(Cr1−xGax )2O4, wherein a Néel to spin glass phase transition occurs between x = 0.2 and 0.25 [Lee et al., Phys. Rev. B 77, 014405 (2008)]. Our study stresses the non-negligible role of bond disorder on magnetic frustration, even in ferromagnets. D

AB - The consequences of random nonmagnetic-ion dilution for the pyrochlore family Y2(M1−xNx )2O7 (M = magnetic ion, N = nonmagnetic ion) have been investigated. As a first step, we experimentally examine the magnetic properties of Y2CrSbO7 (x = 0.5), in which the magnetic sites (Cr3+) are percolative. Although the effective Cr-Cr spin exchange is ferromagnetic, as evidenced by a positive Curie-Weiss temperature, CW 19.5 K, our high-resolution neutron powder diffraction measurements detect no sign of magnetic long-range order down to 2 K. In order to understand our observations, we construct a lattice model to numerically study the bond disorder introduced by the ionic size mismatch between M and N, which reveals that the bond disorder percolates at xb 0.23, explaining the absence of magnetic long-range order. This model could be applied to a series of frustrated magnets with a pyrochlore sublattice, for example, the spinel compound Zn(Cr1−xGax )2O4, wherein a Néel to spin glass phase transition occurs between x = 0.2 and 0.25 [Lee et al., Phys. Rev. B 77, 014405 (2008)]. Our study stresses the non-negligible role of bond disorder on magnetic frustration, even in ferromagnets. D

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M3 - Article

SN - 1098-0121

VL - 96

JO - Physical Review B

JF - Physical Review B

M1 - 094438

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Absence of magnetic long range order in Y2CrSbO7: bond-disorder induced magnetic frustration in a ferromagnetic pyrochlore

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Research output

Magnetic ordering in the pyrochlore Ho2CrSbO7 determined from neutron diffraction, and the magnetic properties of other RE2CrSbO7 phases (RE=Y, Tb, Dy, Er)

Structural and magnetic characterisation of the pyrochlores Bi2-xFex(FeSb)O7, (x = 0.1, 0.2, 0.3), Nd1.8Fe0.2(FeSb)O7 and Pr2(FeSb)O7

Projects

Functional materials derived from the schafarzikite mineral framework

Scattering Studies of Emergent Phenomena at Extreme Conditions of Magnetic Field and Temperature

Cite this

Magnetic ordering in the pyrochlore Ho₂CrSbO₇ determined from neutron diffraction, and the magnetic properties of other RE₂CrSbO₇ phases (RE=Y, Tb, Dy, Er)

Structural and magnetic characterisation of the pyrochlores Bi_2-xFe_x(FeSb)O₇, (x = 0.1, 0.2, 0.3), Nd_1.8Fe_0.2(FeSb)O₇ and Pr₂(FeSb)O₇