Interfacial charge transfer exciton enhanced by plasmon in 2D in-plane lateral and van der Waals heterostructures

Xijiao Mu; Mengtao Sun

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Interfacial charge transfer exciton enhanced by plasmon in 2D in-plane lateral and van der Waals heterostructures

机译：界面电荷转移激子在2D平面横向和范德瓦尔斯异质结构中增强了等离子体

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摘要

The multi-scale computational method of combining the first-principles calculation and finite element electromagnetic simulations is used to study the plasmon-enhanced interlayer charge transfer (CT) exciton of 2D lateral and van der Waals MoS_2/WS_2 heterostructures with the 2H phase. The weak interlayer CT excitons are observed in the 2H lateral and van der Waals MoS_2/WS_2 heterostructures. Theoretical results reveal the physical principle of plexcitons resulting from the strong coupling between plasmons and interlayer CT excitons. The weak CT excitons can be strongly enhanced by a metal plasmon, which provides a way to observe the weak CT excitons. Our results can promote a deeper understanding of the plexciton resulting from strong coupling interaction between the plasmon and the exciton of lateral and van der Waals heterostructures.

机译：组合第一原理计算和有限元电磁模拟的多尺度计算方法用于研究2D横向的等离子体增强层间电荷转移（CT）激子与2H相的异质结构。在2H横向和范德瓦尔斯MOS_2 / WS_2异质结构中观察到弱层间CT激子。理论结果揭示了素质和中间型CT激子之间强耦合引起的金属石中的物理原理。金属等离子体可以强烈地增强弱CT激子，这提供了观察弱CT激子的方法。我们的结果可以促进对Plexciton的更深入了解，这些功能是由横向和范德瓦氏症异性结构的等离子体和激子之间的强烈耦合相互作用。

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来源
《Applied Physics Letters 》 |2020年第9期| 091601.1-091601.6| 共6页
作者
Xijiao Mu; Mengtao Sun;
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作者单位

School of Mathematics and Physics Beijing Advanced Innovation Center for Materials Genome Engineering Beijing Key Laboratory for Magneto-Photoelectrical Composite and Interface Science University of Science and Technology Beijing Beijing 100083 People's Republic of China;

School of Mathematics and Physics Beijing Advanced Innovation Center for Materials Genome Engineering Beijing Key Laboratory for Magneto-Photoelectrical Composite and Interface Science University of Science and Technology Beijing Beijing 100083 People's Republic of China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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2. Interfacial charge transfers and interactions drive rectifying and negative differential resistance behaviors in InAs/graphene van der Waals heterostructure [J] . Ning Feng, Chen Shi-Zhang, Zhang Yong, Applied Surface Science . 2019 ,第Deca1期

机译：界面电荷转移和相互作用驱动InAs /石墨烯范德华异质结构中的整流和负微分电阻行为
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4. Mapping the ultrafast charge transfer in van der Waals heterostructures [C] . Markus Plankl, Martin Zizlsperger, Fabian Moosharmmer, International Conference on Infrared, Millimeter, and Terahertz Waves . 2020

机译：在van der Waals异质结构中映射超快电荷转移
5. From Van Der Waals to Coulombic Heterostructures: Understanding Charge Transfer in 2D Materials [D] . Woomer, Adam Haas. 2018

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6. Engineering phonon polaritons in van der Waals heterostructures to enhance in-plane optical anisotropy [O] . Kundan Chaudhary, Michele Tamagnone, Mehdi Rezaee, 2019

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7. Van Der Waals Heterostructures: Interfacial Charge Behavior Modulation in Perovskite Quantum Dot-Monolayer MoS2 0D-2D Mixed-Dimensional van der Waals Heterostructures (Adv. Funct. Mater. 34/2018) [O] . Hualin Wu, Zhuo Kang, Zihan Zhang, 2018

机译：van der waals异质结构：钙钛矿量子点 - 单层MOS2 0D-2D混合维van der下颌异质结构（ADV。Funct。Mater。34/2018）中的界面电荷行为调制

Interfacial charge transfer exciton enhanced by plasmon in 2D in-plane lateral and van der Waals heterostructures

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