Spin-Orbital Short-Range Order on a Honeycomb-Based Lattice

S. Nakatsuji; K. Kuga; K. Kimura; R. Satake; N. Katayama; E. Nishibori; H. Sawa; R. Ishii; M. Hagiwara; F. Bridges; T. U. Ito; W. Higemoto; Y. Karaki; M. Halim; A. A. Nugroho; J. A. Rodriguez-Rivera; M. A. Green; C. Broholm

doi:10.1126/science.1212154

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Spin-Orbital Short-Range Order on a Honeycomb-Based Lattice

S. Nakatsuji¹,*,
K. Kuga¹,
K. Kimura¹,
R. Satake²,
N. Katayama²,
E. Nishibori²,
H. Sawa²,
R. Ishii³,
M. Hagiwara³,
F. Bridges⁴,
T. U. Ito⁵,
W. Higemoto⁵,
Y. Karaki⁶,
M. Halim⁷,
A. A. Nugroho⁷,
J. A. Rodriguez-Rivera⁸,⁹,
M. A. Green⁸,⁹,
C. Broholm⁸,¹⁰

¹Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan.
²Department of Applied Physics, Graduate School of Engineering, Nagoya University, Nagoya 464-8603, Japan.
³KYOKUGEN, Osaka University, Toyonaka, Osaka 560-8531, Japan.
⁴Physics Department, University of California, Santa Cruz, CA 95064, USA.
⁵Advanced Science Research Center, Japan Atomic Energy Agency, Tokai, Ibaraki 319-1195, Japan.
⁶Faculty of Education, University of the Ryukyus, Nishihara, Okinawa 903-0213, Japan.
⁷Faculty of Mathematics and Natural Sciences, Institut Teknologi Bandung, Jl. Ganesha 10, Bandung 40132, Indonesia.
⁸NIST Center for Neutron Research, National Institute of Standards and Technology, Gaithersburg, MD 20899, USA.
⁹Department of Materials Science and Engineering, University of Maryland, College Park, MD 20742, USA.
¹⁰Institute for Quantum Matter (IQM) and Department of Physics and Astronomy, Johns Hopkins University, Baltimore, MD 21218, USA.

↵*To whom correspondence should be addressed. E-mail: satoru{at}issp.u-tokyo.ac.jp

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Science 04 May 2012:
Vol. 336, Issue 6081, pp. 559-563
DOI: 10.1126/science.1212154

S. Nakatsuji

Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan.

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For correspondence: satoru@issp.u-tokyo.ac.jp

K. Kuga

Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan.

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K. Kimura

Institute for Solid State Physics, University of Tokyo, Kashiwa, Chiba 277-8581, Japan.

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R. Satake

Department of Applied Physics, Graduate School of Engineering, Nagoya University, Nagoya 464-8603, Japan.

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N. Katayama

Department of Applied Physics, Graduate School of Engineering, Nagoya University, Nagoya 464-8603, Japan.

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E. Nishibori

Department of Applied Physics, Graduate School of Engineering, Nagoya University, Nagoya 464-8603, Japan.

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H. Sawa

Department of Applied Physics, Graduate School of Engineering, Nagoya University, Nagoya 464-8603, Japan.

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R. Ishii

KYOKUGEN, Osaka University, Toyonaka, Osaka 560-8531, Japan.

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M. Hagiwara

KYOKUGEN, Osaka University, Toyonaka, Osaka 560-8531, Japan.

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F. Bridges

Physics Department, University of California, Santa Cruz, CA 95064, USA.

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T. U. Ito

Advanced Science Research Center, Japan Atomic Energy Agency, Tokai, Ibaraki 319-1195, Japan.

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W. Higemoto

Advanced Science Research Center, Japan Atomic Energy Agency, Tokai, Ibaraki 319-1195, Japan.

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Y. Karaki

Faculty of Education, University of the Ryukyus, Nishihara, Okinawa 903-0213, Japan.

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M. Halim

Faculty of Mathematics and Natural Sciences, Institut Teknologi Bandung, Jl. Ganesha 10, Bandung 40132, Indonesia.

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A. A. Nugroho

Faculty of Mathematics and Natural Sciences, Institut Teknologi Bandung, Jl. Ganesha 10, Bandung 40132, Indonesia.

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J. A. Rodriguez-Rivera

NIST Center for Neutron Research, National Institute of Standards and Technology, Gaithersburg, MD 20899, USA.Department of Materials Science and Engineering, University of Maryland, College Park, MD 20742, USA.

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M. A. Green

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C. Broholm

NIST Center for Neutron Research, National Institute of Standards and Technology, Gaithersburg, MD 20899, USA.Institute for Quantum Matter (IQM) and Department of Physics and Astronomy, Johns Hopkins University, Baltimore, MD 21218, USA.

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Abstract

Frustrated magnetic materials, in which local conditions for energy minimization are incompatible because of the lattice structure, can remain disordered to the lowest temperatures. Such is the case for Ba₃CuSb₂O₉, which is magnetically anisotropic at the atomic scale but curiously isotropic on mesoscopic length and time scales. We find that the frustration of Wannier’s Ising model on the triangular lattice is imprinted in a nanostructured honeycomb lattice of Cu²⁺ ions that resists a coherent static Jahn-Teller distortion. The resulting two-dimensional random-bond spin-1/2 system on the honeycomb lattice has a broad spectrum of spin-dimer–like excitations and low-energy spin degrees of freedom that retain overall hexagonal symmetry.

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Spin-Orbital Short-Range Order on a Honeycomb-Based Lattice

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