Applied Physics Seminar | Metal or insulator? That is the question
Lu Li, Ph.D., Associate Chair, Department of Physics and Professor of Physics, College of Literature, Science, and the Arts, University of Michigan
Wednesday, November 13, 2024
12:00-1:00 PM
Virtual
Abstract:
Lu will talk about the dual nature of the topological Kondo insulators. They are perfect insulators like pure silicon, and their electrical resistivity diverges by more than a million times during cooling down. Yet, they show a characteristic feature of good metal---oscillations in magnetization under magnetic fields.
In this talk, Lu will review his discovery of this contradiction: his quest to observe insulators’ oscillations, not only in magnetization but also in electrical resistivity. His experiments demonstrate that the oscillatory carriers are just like electrons, following the Fermi-Dirac distributions, even in this perfect insulator. So, can the compound be both metal and insulator? Or can a fermion exist in solids even without electrical charge? Let's find the answer.
References:
[1] Xiang, Z. et al., Science 362, 65 (2018).
[2] Li, Lu et al., Nature Review Physics 2, 463 (2020).
[3] Xiang, Z., et al., Nature Physics 17, 788 (2021).
[4] Zheng, G. et al., arXiv:2310.07989 (2023)
[5] Li, G. et al., Science 346, 1208 (2014).
[6] Xiang, Z., et al., Physical Review X 7, 031054 (2017).
Lu will talk about the dual nature of the topological Kondo insulators. They are perfect insulators like pure silicon, and their electrical resistivity diverges by more than a million times during cooling down. Yet, they show a characteristic feature of good metal---oscillations in magnetization under magnetic fields.
In this talk, Lu will review his discovery of this contradiction: his quest to observe insulators’ oscillations, not only in magnetization but also in electrical resistivity. His experiments demonstrate that the oscillatory carriers are just like electrons, following the Fermi-Dirac distributions, even in this perfect insulator. So, can the compound be both metal and insulator? Or can a fermion exist in solids even without electrical charge? Let's find the answer.
References:
[1] Xiang, Z. et al., Science 362, 65 (2018).
[2] Li, Lu et al., Nature Review Physics 2, 463 (2020).
[3] Xiang, Z., et al., Nature Physics 17, 788 (2021).
[4] Zheng, G. et al., arXiv:2310.07989 (2023)
[5] Li, G. et al., Science 346, 1208 (2014).
[6] Xiang, Z., et al., Physical Review X 7, 031054 (2017).
Building: | West Hall |
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Event Link: | |
Event Password: | Passcode: 898441 |
Event Type: | Lecture / Discussion |
Tags: | Physics, Science, seminar |
Source: | Happening @ Michigan from Applied Physics, Department of Physics |
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