Quantum interference effect in few-layered transition metal dichalcogenide

Jinwan Park; Kenji Yoshida; Sung Jin An; Kazuhiko Hirakawa; Minkyung Jung; Jungpil Seo

doi:10.1016/j.cap.2020.01.007

Quantum interference effect in few-layered transition metal dichalcogenide

Jinwan Park, Kenji Yoshida, Sung Jin An, Kazuhiko Hirakawa, Minkyung Jung, Jungpil Seo

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Van der Waals layered transition metal dichalcogenides (TMDCs), as atomically flat two-dimensional materials, have been studied extensively in both fundamental science and application fields in recent years. The reduced-dimensional properties of TMDCs not only provide a route for the fabricating of efficient field effect transistors and optoelectronic devices but also suggest the possibility of the devices that utilize quantum coherency. In this work, we characterize the electron transport properties of ReS₂, one of the TMDCs, at both room temperature and low temperature. Of particular note, we measured strong quantum conductance oscillations as a function of the gate voltages and source-drain voltages at reduced temperature, which is evidence of quantum coherent transport. This work unambiguously establishes ReS₂ as a promising candidate for future quantum materials.

Original language	English
Pages (from-to)	451-455
Number of pages	5
Journal	Current Applied Physics
Volume	20
Issue number	3
DOIs	https://doi.org/10.1016/j.cap.2020.01.007
State	Published - Mar 2020

Bibliographical note

Publisher Copyright:
© 2020

Keywords

Fabry-Pérot
Quantum interference
ReS2
TMDC
UCF

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10.1016/j.cap.2020.01.007

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title = "Quantum interference effect in few-layered transition metal dichalcogenide",

abstract = "Van der Waals layered transition metal dichalcogenides (TMDCs), as atomically flat two-dimensional materials, have been studied extensively in both fundamental science and application fields in recent years. The reduced-dimensional properties of TMDCs not only provide a route for the fabricating of efficient field effect transistors and optoelectronic devices but also suggest the possibility of the devices that utilize quantum coherency. In this work, we characterize the electron transport properties of ReS2, one of the TMDCs, at both room temperature and low temperature. Of particular note, we measured strong quantum conductance oscillations as a function of the gate voltages and source-drain voltages at reduced temperature, which is evidence of quantum coherent transport. This work unambiguously establishes ReS2 as a promising candidate for future quantum materials.",

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author = "Jinwan Park and Kenji Yoshida and An, {Sung Jin} and Kazuhiko Hirakawa and Minkyung Jung and Jungpil Seo",

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doi = "10.1016/j.cap.2020.01.007",

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AU - Park, Jinwan

AU - Yoshida, Kenji

AU - An, Sung Jin

AU - Hirakawa, Kazuhiko

AU - Jung, Minkyung

AU - Seo, Jungpil

PY - 2020/3

Y1 - 2020/3

N2 - Van der Waals layered transition metal dichalcogenides (TMDCs), as atomically flat two-dimensional materials, have been studied extensively in both fundamental science and application fields in recent years. The reduced-dimensional properties of TMDCs not only provide a route for the fabricating of efficient field effect transistors and optoelectronic devices but also suggest the possibility of the devices that utilize quantum coherency. In this work, we characterize the electron transport properties of ReS2, one of the TMDCs, at both room temperature and low temperature. Of particular note, we measured strong quantum conductance oscillations as a function of the gate voltages and source-drain voltages at reduced temperature, which is evidence of quantum coherent transport. This work unambiguously establishes ReS2 as a promising candidate for future quantum materials.

AB - Van der Waals layered transition metal dichalcogenides (TMDCs), as atomically flat two-dimensional materials, have been studied extensively in both fundamental science and application fields in recent years. The reduced-dimensional properties of TMDCs not only provide a route for the fabricating of efficient field effect transistors and optoelectronic devices but also suggest the possibility of the devices that utilize quantum coherency. In this work, we characterize the electron transport properties of ReS2, one of the TMDCs, at both room temperature and low temperature. Of particular note, we measured strong quantum conductance oscillations as a function of the gate voltages and source-drain voltages at reduced temperature, which is evidence of quantum coherent transport. This work unambiguously establishes ReS2 as a promising candidate for future quantum materials.

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Quantum interference effect in few-layered transition metal dichalcogenide

Abstract

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Keywords

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