Manifolds of magnetic ordered states and excitations in the almost Heisenberg pyrochlore antiferromagnet MgCr2 O4

S. Gao; K. Guratinder; U. Stuhr; J. S. White; M. Mansson; B. Roessli; T. Fennell; V. Tsurkan; A. Loidl; M. Ciomaga Hatnean; G. Balakrishnan; S. Raymond; L. Chapon; V. O. Garlea; A. T. Savici; A. Cervellino; A. Bombardi; D. Chernyshov; Ch Rüegg; J. T. Haraldsen; O. Zaharko

doi:10.1103/PhysRevB.97.134430

Manifolds of magnetic ordered states and excitations in the almost Heisenberg pyrochlore antiferromagnet MgCr2 O4

S. Gao, K. Guratinder, U. Stuhr, J. S. White, M. Mansson, B. Roessli, T. Fennell, V. Tsurkan, A. Loidl, M. Ciomaga Hatnean, G. Balakrishnan, S. Raymond, L. Chapon, V. O. Garlea, A. T. Savici, A. Cervellino, A. Bombardi, D. Chernyshov, Ch Rüegg, J. T. HaraldsenO. Zaharko

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Abstract

In spinels ACr2O4(A=Mg, Zn), realization of the classical pyrochlore Heisenberg antiferromagnet model is complicated by a strong spin-lattice coupling: the extensive degeneracy of the ground state is lifted by a magneto-structural transition at TN=12.5 K. We study the resulting low-temperature low-symmetry crystal structure by synchrotron x-ray diffraction. The consistent features of x-ray low-temperature patterns are explained by the tetragonal model of Ehrenberg et al. [Pow. Diff. 17, 230 (2002)PODIE20885-715610.1154/1.1479738], while other features depend on sample or cooling protocol. A complex, partially ordered magnetic state is studied by neutron diffraction and spherical neutron polarimetry. Multiple magnetic domains of configuration arms of the propagation vectors k1=(12120),k2=(1012) appear. The ordered moment reaches 1.94(3) μB/Cr3+ for k1 and 2.08(3) μB/Cr3+ for k2, if equal amount of the k1 and k2 phases is assumed. The magnetic arrangements have the dominant components along the [110] and [1-10] diagonals and a smaller c component. We use inelastic neutron scattering to investigate the spin excitations, which comprise a mixture of dispersive spin waves propagating from the magnetic Bragg peaks and resonance modes centered at equal energy steps of 4.5 meV. We interpret these as acoustic and optical spin wave branches, but show that the neutron scattering cross sections of transitions within a unit of two corner-sharing tetrahedra match the observed intensity distribution of the resonances. The distinctive fingerprint of clusterlike excitations in the optical spin wave branches suggests that propagating excitations are localized by the complex crystal structure and magnetic orders.

Original language	English
Article number	134430
Journal	Physical Review B
Volume	97
Issue number	13
DOIs	https://doi.org/10.1103/PhysRevB.97.134430
State	Published - Apr 27 2018

Funding

This work was performed at SINQ, Paul Scherrer Institute, Villigen, Switzerland with financial support of the Swiss National Science Foundation (SCOPES project IZ73Z0 152734/1, Grants No. 200021-140862 and No. 200020-162626). Work at the University of Warwick was funded by the EPSRC, UK through Grant No. EP/M028941/1. The HYSPEC experiment used resources at the Spallation Neutron Source, a DOE Office of Science User Facility operated by the Oak Ridge National Laboratory. The IN12 experiment was supported by the Swiss State Secretariat for Education, Research and Innovation through a Collaboration Research Group grant. J.T.H. acknowledges support from the Institute for Materials Science at Los Alamos National Laboratory.

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Gao, S., Guratinder, K., Stuhr, U., White, J. S., Mansson, M., Roessli, B., Fennell, T., Tsurkan, V., Loidl, A., Ciomaga Hatnean, M., Balakrishnan, G., Raymond, S., Chapon, L., Garlea, V. O., Savici, A. T., Cervellino, A., Bombardi, A., Chernyshov, D., Rüegg, C., ... Zaharko, O. (2018). Manifolds of magnetic ordered states and excitations in the almost Heisenberg pyrochlore antiferromagnet MgCr2 O4. Physical Review B, 97(13), Article 134430. https://doi.org/10.1103/PhysRevB.97.134430

@article{6453fc8240c74e0c815ffc5396f965c5,

title = "Manifolds of magnetic ordered states and excitations in the almost Heisenberg pyrochlore antiferromagnet MgCr2 O4",

abstract = "In spinels ACr2O4(A=Mg, Zn), realization of the classical pyrochlore Heisenberg antiferromagnet model is complicated by a strong spin-lattice coupling: the extensive degeneracy of the ground state is lifted by a magneto-structural transition at TN=12.5 K. We study the resulting low-temperature low-symmetry crystal structure by synchrotron x-ray diffraction. The consistent features of x-ray low-temperature patterns are explained by the tetragonal model of Ehrenberg et al. [Pow. Diff. 17, 230 (2002)PODIE20885-715610.1154/1.1479738], while other features depend on sample or cooling protocol. A complex, partially ordered magnetic state is studied by neutron diffraction and spherical neutron polarimetry. Multiple magnetic domains of configuration arms of the propagation vectors k1=(12120),k2=(1012) appear. The ordered moment reaches 1.94(3) μB/Cr3+ for k1 and 2.08(3) μB/Cr3+ for k2, if equal amount of the k1 and k2 phases is assumed. The magnetic arrangements have the dominant components along the [110] and [1-10] diagonals and a smaller c component. We use inelastic neutron scattering to investigate the spin excitations, which comprise a mixture of dispersive spin waves propagating from the magnetic Bragg peaks and resonance modes centered at equal energy steps of 4.5 meV. We interpret these as acoustic and optical spin wave branches, but show that the neutron scattering cross sections of transitions within a unit of two corner-sharing tetrahedra match the observed intensity distribution of the resonances. The distinctive fingerprint of clusterlike excitations in the optical spin wave branches suggests that propagating excitations are localized by the complex crystal structure and magnetic orders.",

author = "S. Gao and K. Guratinder and U. Stuhr and White, \{J. S.\} and M. Mansson and B. Roessli and T. Fennell and V. Tsurkan and A. Loidl and \{Ciomaga Hatnean\}, M. and G. Balakrishnan and S. Raymond and L. Chapon and Garlea, \{V. O.\} and Savici, \{A. T.\} and A. Cervellino and A. Bombardi and D. Chernyshov and Ch R{\"u}egg and Haraldsen, \{J. T.\} and O. Zaharko",

note = "Publisher Copyright: {\textcopyright} 2018 American Physical Society.",

year = "2018",

month = apr,

day = "27",

doi = "10.1103/PhysRevB.97.134430",

language = "English",

volume = "97",

journal = "Physical Review B",

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Gao, S, Guratinder, K, Stuhr, U, White, JS, Mansson, M, Roessli, B, Fennell, T, Tsurkan, V, Loidl, A, Ciomaga Hatnean, M, Balakrishnan, G, Raymond, S, Chapon, L, Garlea, VO , Savici, AT, Cervellino, A, Bombardi, A, Chernyshov, D, Rüegg, C, Haraldsen, JT & Zaharko, O 2018, 'Manifolds of magnetic ordered states and excitations in the almost Heisenberg pyrochlore antiferromagnet MgCr2 O4', Physical Review B, vol. 97, no. 13, 134430. https://doi.org/10.1103/PhysRevB.97.134430

TY - JOUR

T1 - Manifolds of magnetic ordered states and excitations in the almost Heisenberg pyrochlore antiferromagnet MgCr2 O4

AU - Gao, S.

AU - Guratinder, K.

AU - Stuhr, U.

AU - White, J. S.

AU - Mansson, M.

AU - Roessli, B.

AU - Fennell, T.

AU - Tsurkan, V.

AU - Loidl, A.

AU - Ciomaga Hatnean, M.

AU - Balakrishnan, G.

AU - Raymond, S.

AU - Chapon, L.

AU - Garlea, V. O.

AU - Savici, A. T.

AU - Cervellino, A.

AU - Bombardi, A.

AU - Chernyshov, D.

AU - Rüegg, Ch

AU - Haraldsen, J. T.

AU - Zaharko, O.

PY - 2018/4/27

Y1 - 2018/4/27

N2 - In spinels ACr2O4(A=Mg, Zn), realization of the classical pyrochlore Heisenberg antiferromagnet model is complicated by a strong spin-lattice coupling: the extensive degeneracy of the ground state is lifted by a magneto-structural transition at TN=12.5 K. We study the resulting low-temperature low-symmetry crystal structure by synchrotron x-ray diffraction. The consistent features of x-ray low-temperature patterns are explained by the tetragonal model of Ehrenberg et al. [Pow. Diff. 17, 230 (2002)PODIE20885-715610.1154/1.1479738], while other features depend on sample or cooling protocol. A complex, partially ordered magnetic state is studied by neutron diffraction and spherical neutron polarimetry. Multiple magnetic domains of configuration arms of the propagation vectors k1=(12120),k2=(1012) appear. The ordered moment reaches 1.94(3) μB/Cr3+ for k1 and 2.08(3) μB/Cr3+ for k2, if equal amount of the k1 and k2 phases is assumed. The magnetic arrangements have the dominant components along the [110] and [1-10] diagonals and a smaller c component. We use inelastic neutron scattering to investigate the spin excitations, which comprise a mixture of dispersive spin waves propagating from the magnetic Bragg peaks and resonance modes centered at equal energy steps of 4.5 meV. We interpret these as acoustic and optical spin wave branches, but show that the neutron scattering cross sections of transitions within a unit of two corner-sharing tetrahedra match the observed intensity distribution of the resonances. The distinctive fingerprint of clusterlike excitations in the optical spin wave branches suggests that propagating excitations are localized by the complex crystal structure and magnetic orders.

AB - In spinels ACr2O4(A=Mg, Zn), realization of the classical pyrochlore Heisenberg antiferromagnet model is complicated by a strong spin-lattice coupling: the extensive degeneracy of the ground state is lifted by a magneto-structural transition at TN=12.5 K. We study the resulting low-temperature low-symmetry crystal structure by synchrotron x-ray diffraction. The consistent features of x-ray low-temperature patterns are explained by the tetragonal model of Ehrenberg et al. [Pow. Diff. 17, 230 (2002)PODIE20885-715610.1154/1.1479738], while other features depend on sample or cooling protocol. A complex, partially ordered magnetic state is studied by neutron diffraction and spherical neutron polarimetry. Multiple magnetic domains of configuration arms of the propagation vectors k1=(12120),k2=(1012) appear. The ordered moment reaches 1.94(3) μB/Cr3+ for k1 and 2.08(3) μB/Cr3+ for k2, if equal amount of the k1 and k2 phases is assumed. The magnetic arrangements have the dominant components along the [110] and [1-10] diagonals and a smaller c component. We use inelastic neutron scattering to investigate the spin excitations, which comprise a mixture of dispersive spin waves propagating from the magnetic Bragg peaks and resonance modes centered at equal energy steps of 4.5 meV. We interpret these as acoustic and optical spin wave branches, but show that the neutron scattering cross sections of transitions within a unit of two corner-sharing tetrahedra match the observed intensity distribution of the resonances. The distinctive fingerprint of clusterlike excitations in the optical spin wave branches suggests that propagating excitations are localized by the complex crystal structure and magnetic orders.

UR - https://www.scopus.com/pages/publications/85046956367

U2 - 10.1103/PhysRevB.97.134430

DO - 10.1103/PhysRevB.97.134430

M3 - Article

AN - SCOPUS:85046956367

SN - 2469-9950

VL - 97

JO - Physical Review B

JF - Physical Review B

IS - 13

M1 - 134430

ER -

Manifolds of magnetic ordered states and excitations in the almost Heisenberg pyrochlore antiferromagnet MgCr2 O4

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