Efficient Frequency Upconversion Photodetection in Heterojunction of InSe and Silicon Photonic Crystal Cavity

Chen, Xiaoqing; Ji, Yingke; Wang, Jianguo; Wu, Xianghu; Luo, Zheng‐Dong; Liu, Yan; Zhao, Jianlin; Gan, Xuetao

doi:10.1002/adom.202301468

Advanced Optical Materials

2023

DOI: 10.1002/adom.202301468

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Efficient Frequency Upconversion Photodetection in Heterojunction of InSe and Silicon Photonic Crystal Cavity

Xiaoqing Chen,

Yingke Ji,

Jianguo Wang

et al.

Abstract: Frequency upconversion photodetection by two‐dimensional (2D) materials with nonlinear optical response is an appealing technique for applications such as extending photodetection wavelength range, autocorrelation measurement, and high‐efficiency single photon detection. However, the frequency upconversion efficiency in 2D materials is limited due to the low efficiency of nonlinear optical processes and atomic light‐matter interaction length. Here, the efficient frequency upconversion photodetection is realize… Show more

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2024

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Cited by 3 publications

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Nonlinear Photodetector Based on InSe p–n Homojunction for Improving Spatial Imaging Resolution

Zhang,

Chen,

Zhang

et al. 2024

Adv Funct Materials

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An efficient nonlinear photodetector (NLPD) is demonstrated with quadratic response based on a few‐layer InSe p–n homojunction, which is beneficial from the strong second harmonic generation (SHG) process in InSe and effective harvest of photocarriers actuated by the high‐quality homojunction. The NLPD can sense light with photon energy smaller than InSe's electronic bandgap because the SHG process in InSe doubles the frequency of incident light, extending InSe's photodetection wavelength range to 1750 nm. The InSe p–n homojunction, which is electrostatically doped by two split back gates, presents a rectification ratio exceeding 106 with a dark current down to 2 pA and a high normalized responsivity of 0.534 A W−2 for the telecom‐band pulsed light at 1550 nm. The photocurrents of the SHG‐assisted photodetection have a quadratic dependence on the optical powers, making the NLPD highly sensitive to light intensity variation with improved spatial resolution. As examples, the NLPD is employed to precisely determine the localization point of a focused laser beam waist and implement spatial imaging with an improved resolution compared with the linear photodetector. These features highlight the potential of the proposed NLPD in developing advanced optical sensing and imaging systems.

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Nonlinear Photodetector Based on InSe p–n Homojunction for Improving Spatial Imaging Resolution

Zhang,

Chen,

Zhang

et al. 2024

Adv Funct Materials

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Metamaterials for high-performance photodetectors

Zhang,

Li,

Xie

et al. 2024

Applied Physics Reviews

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Metamaterials, a kind of novel materials with artificial design, have exhibited extraordinary properties that cannot be found in nature. In the past decade, remarkable achievements have been made in the field of metamaterial-based photodetectors. However, there is hardly any systematic and thorough review of the metamaterials' recent development in photodetection devices. Herein, we summarized recent advances in the metamaterial-based photodetectors according to a dual role of metamaterials: enrichment of photodetection functionalities and enhancement of photodetection performance. To start with, we presented an overview of the relevant concept of metamaterials and explore their distinctive optical characteristics. Subsequently, we delved into the work mechanism and figures of merit of metamaterial-based photodetectors. Next, we highlighted various types of metamaterials as a flexible platform for advanced photodetection technology, including metasurface, graphene-metamaterial hybrids, patterned nanostructures, and van der Waals metamaterials. Finally, the challenges and outlook associated with future developments were systematically and deeply discussed based on the current state of research. We believe that this review will offer crucial insights and valuable guidance, paving the way for future advancements and in-depth investigations in the realm of metamaterial-based photodetectors.

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Microcavity induced by a few-layer GaSe crystal on a silicon photonic crystal waveguide for efficient optical frequency conversion

Chen,

Zhang,

et al. 2024

Opt. Lett.

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We demonstrate the post-induction of high-quality microcavities on a silicon photonic crystal (PC) waveguide by integrating a few-layer GaSe crystal, which promises efficient on-chip optical frequency conversions. The integration of GaSe shifts the dispersion bands of the PC waveguide mode into the bandgap, resulting in localized modes confined by the bare PC waveguides. Thanks to the small contrast of refractive index at the boundaries of the microcavity, it is reliable to obtain quality factors exceeding 104. With the enhanced light–GaSe interaction by the microcavity modes and GaSe’s high second-order nonlinearity, remarkable second-harmonic generation (SHG) and sum-frequency generation (SFG) are achieved with continuous-wave (CW) lasers.

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Efficient Frequency Upconversion Photodetection in Heterojunction of InSe and Silicon Photonic Crystal Cavity

Cited by 3 publications

References 46 publications

Nonlinear Photodetector Based on InSe p–n Homojunction for Improving Spatial Imaging Resolution

Nonlinear Photodetector Based on InSe p–n Homojunction for Improving Spatial Imaging Resolution

Metamaterials for high-performance photodetectors

Microcavity induced by a few-layer GaSe crystal on a silicon photonic crystal waveguide for efficient optical frequency conversion

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