Quantum Oscillations in the Specific Heat of Kondo Insulator YbB<sub>12</sub>
ORAL
Abstract
We observe the magnetic quantum oscillation in specific heat of the Kondo insulator YbB12.
The frequency of these oscillations F = 670 T, aligns with findings from magnetoresistance and
torque magnetometry experiments for μ0H > 35 T in the Kondo insulating phase. Remarkably, the
quantum oscillation amplitudes in the specific heat are substantial, with ∆C/T ≈ 0.5 mJ mol−1K−2
at 0.5 K, accounting for 13% of the known linear heat capacity coefficient γ. Double-peak structures
of quantum oscillations based on the distribution function of fermions were identified and used to
determine the value of the effective mass in the specific heat, which agrees well with the torque
magnetometry. These observations support charge-neutral fermions contributing to the quantum
oscillations in YbB12.
The frequency of these oscillations F = 670 T, aligns with findings from magnetoresistance and
torque magnetometry experiments for μ0H > 35 T in the Kondo insulating phase. Remarkably, the
quantum oscillation amplitudes in the specific heat are substantial, with ∆C/T ≈ 0.5 mJ mol−1K−2
at 0.5 K, accounting for 13% of the known linear heat capacity coefficient γ. Double-peak structures
of quantum oscillations based on the distribution function of fermions were identified and used to
determine the value of the effective mass in the specific heat, which agrees well with the torque
magnetometry. These observations support charge-neutral fermions contributing to the quantum
oscillations in YbB12.
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Presenters
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Kuan-Wen Chen
University of Michigan
Authors
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Kuan-Wen Chen
University of Michigan
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Yuan Zhu
University of Michigan
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Danilo Ratkovski
NHMFL, National High Magnetic Field Lab
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Guoxin Zheng
University of Michigan
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Dechen Zhang
University of Michigan
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Aaron Leonard Chan
University of Michigan
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Kaila G Jenkins
University of Michigan
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Joanna Blawat
Los Alamos National Laboratory (LANL)
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Yuichi Kasahara
Kyoto Univ
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Fumitoshi Iga
Ibaraki Univ
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Chandra M Varma
University of California, Riverside
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Yuji Matsuda
Kyoto Univ
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John Singleton
Los Alamos National Laboratory (LANL)
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Ali Bangura
National High Magnetic Field Lab
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Lu Li
University of Michigan