Absence of Magnetic Thermal Conductivity in the Quantum Spin-Liquid Candidate YbMgGaO4

Y. Xu; J. Zhang; Y. S. Li; Y. J. Yu; X. C. Hong; Q. M. Zhang; S. Y. Li

doi:10.1103/PhysRevLett.117.267202

Absence of Magnetic Thermal Conductivity in the Quantum Spin-Liquid Candidate YbMgGaO₄

Y. Xu^*
, J. Zhang
, Y. S. Li
, Y. J. Yu
, X. C. Hong
, Q. M. Zhang
, S. Y. Li

^*此作品的通讯作者

Fudan University
Renmin University of China
Augsburg University
Shanghai Jiao Tong University
Collaborative Innovation Center of Advanced Microstructures

科研成果: 期刊稿件 › 文章 › 同行评审

122 引用（Scopus）

摘要

We present the ultralow-temperature specific heat and thermal conductivity measurements on single crystals of YbMgGaO4, which was recently argued to be a promising candidate for a quantum spin liquid (QSL). In a zero magnetic field, a large magnetic contribution of specific heat is observed, and exhibits a power-law temperature dependence (Cm∼T0.74). On the contrary, we do not observe any significant contribution of thermal conductivity from magnetic excitations. In magnetic fields H≥6 T, the exponential T dependence of Cm and the enhanced thermal conductivity indicate a magnon gap of the fully polarized state. The absence of magnetic thermal conductivity at the zero field in this QSL candidate puts a strong constraint on the theories of its ground state.

源语言	英语
文章编号	267202
期刊	Physical Review Letters
卷	117
期	26
DOI	https://doi.org/10.1103/PhysRevLett.117.267202
出版状态	已出版 - 23 12月 2016
已对外发布	是

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title = "Absence of Magnetic Thermal Conductivity in the Quantum Spin-Liquid Candidate YbMgGaO4",

abstract = "We present the ultralow-temperature specific heat and thermal conductivity measurements on single crystals of YbMgGaO4, which was recently argued to be a promising candidate for a quantum spin liquid (QSL). In a zero magnetic field, a large magnetic contribution of specific heat is observed, and exhibits a power-law temperature dependence (Cm∼T0.74). On the contrary, we do not observe any significant contribution of thermal conductivity from magnetic excitations. In magnetic fields H≥6 T, the exponential T dependence of Cm and the enhanced thermal conductivity indicate a magnon gap of the fully polarized state. The absence of magnetic thermal conductivity at the zero field in this QSL candidate puts a strong constraint on the theories of its ground state.",

author = "Y. Xu and J. Zhang and Li, \{Y. S.\} and Yu, \{Y. J.\} and Hong, \{X. C.\} and Zhang, \{Q. M.\} and Li, \{S. Y.\}",

note = "Publisher Copyright: {\textcopyright} 2016 American Physical Society.",

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doi = "10.1103/PhysRevLett.117.267202",

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AU - Xu, Y.

AU - Zhang, J.

AU - Li, Y. S.

AU - Yu, Y. J.

AU - Hong, X. C.

AU - Zhang, Q. M.

AU - Li, S. Y.

PY - 2016/12/23

Y1 - 2016/12/23

N2 - We present the ultralow-temperature specific heat and thermal conductivity measurements on single crystals of YbMgGaO4, which was recently argued to be a promising candidate for a quantum spin liquid (QSL). In a zero magnetic field, a large magnetic contribution of specific heat is observed, and exhibits a power-law temperature dependence (Cm∼T0.74). On the contrary, we do not observe any significant contribution of thermal conductivity from magnetic excitations. In magnetic fields H≥6 T, the exponential T dependence of Cm and the enhanced thermal conductivity indicate a magnon gap of the fully polarized state. The absence of magnetic thermal conductivity at the zero field in this QSL candidate puts a strong constraint on the theories of its ground state.

AB - We present the ultralow-temperature specific heat and thermal conductivity measurements on single crystals of YbMgGaO4, which was recently argued to be a promising candidate for a quantum spin liquid (QSL). In a zero magnetic field, a large magnetic contribution of specific heat is observed, and exhibits a power-law temperature dependence (Cm∼T0.74). On the contrary, we do not observe any significant contribution of thermal conductivity from magnetic excitations. In magnetic fields H≥6 T, the exponential T dependence of Cm and the enhanced thermal conductivity indicate a magnon gap of the fully polarized state. The absence of magnetic thermal conductivity at the zero field in this QSL candidate puts a strong constraint on the theories of its ground state.

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DO - 10.1103/PhysRevLett.117.267202

M3 - 文章

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SN - 0031-9007

VL - 117

JO - Physical Review Letters

JF - Physical Review Letters

IS - 26

M1 - 267202

ER -

Absence of Magnetic Thermal Conductivity in the Quantum Spin-Liquid Candidate YbMgGaO4

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Absence of Magnetic Thermal Conductivity in the Quantum Spin-Liquid Candidate YbMgGaO₄