二维材料中谐波产生的超快光学调制

Ultrafast Optical Modulation of Harmonic Generation in Two-Dimensional Materials.

作者信息

Cheng Yang, Hong Hao, Zhao Hui, Wu Chunchun, Pan Yu, Liu Can, Zuo Yonggang, Zhang Zhihong, Xie Jin, Wang Jinhuan, Yu Dapeng, Ye Yu, Meng Sheng, Liu Kaihui

机构信息

State Key Laboratory for Mesoscopic Physics, Academy for Advanced Interdisciplinary Studies, School of Physics, Peking University, Beijing 100871, China.

Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China.

出版信息

Nano Lett. 2020 Nov 11;20(11):8053-8058. doi: 10.1021/acs.nanolett.0c02972. Epub 2020 Oct 28.

DOI:10.1021/acs.nanolett.0c02972

PMID:33112622

Abstract

The modulation of optical harmonic generation in two-dimensional (2D) materials is of paramount importance in nanophotonic and nano-optoelectronic devices for their applications in optical switching and communication. However, an effective route with ultrafast modulation speed, ultrahigh modulation depth, and broad operation wavelength range is awaiting a full exploration. Here, we report that an optical pump can dynamically modulate the third harmonic generation (THG) of a graphene monolayer with a relative modulation depth above 90% at a time scale of 2.5 ps for a broad frequency ranging from near-infrared to ultraviolet. Our observation, together with the real-time, time-dependent density functional theory (TDDFT) simulations, reveals that this modulation process stems from nonlinear dynamics of the photoexcited carriers in graphene. The superior performance of the nonlinear all-optical modulator based on 2D materials paves the way for its potential applications including nanolasers and optical communication circuits.

摘要

二维（2D）材料中光学谐波产生的调制对于纳米光子学和纳米光电器件在光开关和通信中的应用至关重要。然而，一条具有超快调制速度、超高调制深度和宽工作波长范围的有效途径仍有待全面探索。在此，我们报道了一个光泵浦能够在2.5皮秒的时间尺度上，对单层石墨烯的三次谐波产生（THG）进行动态调制，对于从近红外到紫外的宽频率范围，其相对调制深度超过90%。我们的观察结果，结合实时的含时密度泛函理论（TDDFT）模拟，揭示了这种调制过程源于石墨烯中光激发载流子的非线性动力学。基于二维材料的非线性全光调制器的卓越性能为其在包括纳米激光器和光通信电路等潜在应用铺平了道路。

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二维材料中谐波产生的超快光学调制

Ultrafast Optical Modulation of Harmonic Generation in Two-Dimensional Materials.

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