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Controlling charge transport in HgTe topological insulator by dual-electrical modulations

Heterostructure transport properties is investigated theoretically based on two-dimensional planar HgTe/CdTe quantum wells structure by a dual-gate modulations. Two voltage gates is deposited on the top of the heterostructure to create the corresponding electrical modulation potential. The electron...

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Published in:	Solid state communications 2023-11, Vol.373-374, p.115335, Article 115335
Main Authors:	Liu, Yanfei, Chen, Zengbiao, Chen, Guoluan, Zhu, Zixuan, Ling, Yiyun, Lin, Liangzhong
Format:	Article
Language:	English
Subjects:	Dual-electrical modulations n HgTe topological insulator Topological insulator-based devices Transport properties
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container_title	Solid state communications
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creator	Liu, Yanfei Chen, Zengbiao Chen, Guoluan Zhu, Zixuan Ling, Yiyun Lin, Liangzhong
description	Heterostructure transport properties is investigated theoretically based on two-dimensional planar HgTe/CdTe quantum wells structure by a dual-gate modulations. Two voltage gates is deposited on the top of the heterostructure to create the corresponding electrical modulation potential. The electron transport property is explored by calculating the transmission spectrum by tuning the incidence angle, Fermi energy and electrical modulation potential. It is demonstrated that the transmission probability can be effectively tuned by changing the incidence angle, gate voltage and Fermi energy. Our findings pave the way for possible future applications of topological insulator-based devices. •This work theoretically presents the transport investigation on the heterostructure based on 2D HgTe/CdTe quantum wells by a dual-gate modulations.•Two voltage gates is deposited on the top of the heterostructure to create the corresponding electrical modulation potential.•The electron transport property is explored by calculating the transmission spectrum by tuning the incidence angle, Fermi energy and electrical modulation potential.•It is demonstrated that the transmission probability can be effectively tuned by changing the incidence angle, gate voltage and Fermi energy.•Our findings pave the way for possible future applications of topological insulator-based devices.
doi_str_mv	10.1016/j.ssc.2023.115335
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Two voltage gates is deposited on the top of the heterostructure to create the corresponding electrical modulation potential. The electron transport property is explored by calculating the transmission spectrum by tuning the incidence angle, Fermi energy and electrical modulation potential. It is demonstrated that the transmission probability can be effectively tuned by changing the incidence angle, gate voltage and Fermi energy. Our findings pave the way for possible future applications of topological insulator-based devices. •This work theoretically presents the transport investigation on the heterostructure based on 2D HgTe/CdTe quantum wells by a dual-gate modulations.•Two voltage gates is deposited on the top of the heterostructure to create the corresponding electrical modulation potential.•The electron transport property is explored by calculating the transmission spectrum by tuning the incidence angle, Fermi energy and electrical modulation potential.•It is demonstrated that the transmission probability can be effectively tuned by changing the incidence angle, gate voltage and Fermi energy.•Our findings pave the way for possible future applications of topological insulator-based devices.</abstract><pub>Elsevier Ltd</pub><doi>10.1016/j.ssc.2023.115335</doi><orcidid>https://orcid.org/0000-0003-1340-5317</orcidid><orcidid>https://orcid.org/0000-0002-8142-2234</orcidid></addata></record>
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subjects	Dual-electrical modulations n HgTe topological insulator Topological insulator-based devices Transport properties
title	Controlling charge transport in HgTe topological insulator by dual-electrical modulations
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