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Main Authors: Guo, Longfei, Xu, Shaowen, Cui, Qilong, Hu, Qingmin, Li, Ruixue, Xu, Gaofeng, Jia, Fanhao, Li, Yuan
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2411.15517
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author Guo, Longfei
Xu, Shaowen
Cui, Qilong
Hu, Qingmin
Li, Ruixue
Xu, Gaofeng
Jia, Fanhao
Li, Yuan
author_facet Guo, Longfei
Xu, Shaowen
Cui, Qilong
Hu, Qingmin
Li, Ruixue
Xu, Gaofeng
Jia, Fanhao
Li, Yuan
contents Weyl semimetals, such as $TaIrTe_{4}$, characterized by their unique band structures and exotic transport phenomena, have become a central focus in modern electronics. Despite extensive research, a systematic understanding of the impact of heterogeneous integration on the electronic and optical properties of TaIrTe4 device remains elusive. We have carried out density functional theory combined with nonequilibrium Green's function formalism calculations for $TaIrTe_{4}/WTe_{2}$, $TaIrTe_{4}/MoTe_{2}$ and $TaIrTe_{4}/h-BN$ heterostructures, aiming to understand the manipulation of photoresponse through various band alignment strategies. The underlying impacts of interlayer interactions, charge transfer and build-in electric field on the electronic properties are carefully investigated. We design a dual-probe photodetector device to understand the overall photoresponse enhancement of the heterogeneous integration by decomposing into the specific strain, interlayer transition, band overlap and symmetry lowering mechanics. These van der Waals integrations provide an ideal platform for studying band alignment physics in self-powered optoelectronic devices.
format Preprint
id arxiv_https___arxiv_org_abs_2411_15517
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Manipulating the Optical Response of TaIrTe4 Heterostructures through Band Alignment Strategy
Guo, Longfei
Xu, Shaowen
Cui, Qilong
Hu, Qingmin
Li, Ruixue
Xu, Gaofeng
Jia, Fanhao
Li, Yuan
Materials Science
Weyl semimetals, such as $TaIrTe_{4}$, characterized by their unique band structures and exotic transport phenomena, have become a central focus in modern electronics. Despite extensive research, a systematic understanding of the impact of heterogeneous integration on the electronic and optical properties of TaIrTe4 device remains elusive. We have carried out density functional theory combined with nonequilibrium Green's function formalism calculations for $TaIrTe_{4}/WTe_{2}$, $TaIrTe_{4}/MoTe_{2}$ and $TaIrTe_{4}/h-BN$ heterostructures, aiming to understand the manipulation of photoresponse through various band alignment strategies. The underlying impacts of interlayer interactions, charge transfer and build-in electric field on the electronic properties are carefully investigated. We design a dual-probe photodetector device to understand the overall photoresponse enhancement of the heterogeneous integration by decomposing into the specific strain, interlayer transition, band overlap and symmetry lowering mechanics. These van der Waals integrations provide an ideal platform for studying band alignment physics in self-powered optoelectronic devices.
title Manipulating the Optical Response of TaIrTe4 Heterostructures through Band Alignment Strategy
topic Materials Science
url https://arxiv.org/abs/2411.15517