Stacked Dual-Band Quantum Well Infrared Photodetector Based on Double-Layer Gold Disk Enhanced Local Light Field

Liu, Chang; Zuo, Xuan; Xu, Shaohui; Wang, Lianwei; Xiong, Dayuan

doi:10.3390/nano11102695

Cited by 3 publications

(1 citation statement)

References 27 publications

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“…By changing the shape, material, distribution and dielectric environment of the subwavelength structure on the metallic film, the resonance wavelength, field enhancement factor, field distribution, radiation and other characteristics of the SPs can be effectively adjusted 10,11 . By improving the metallic micro-/nano-structure and the light absorption of the device through constructing random or regular metal nanoparticle arrays on the active layer and constructing onedimensional or two-dimensional metallic gratings, one can optimize the hot carrier transport efficiency [12][13][14] .…”

Section: Introductionmentioning

confidence: 99%

Surface plasmon enhanced InGaAs/InP APD based on mass-produced epitaxial materials

Chen¹,

Xie²,

Xie³

et al. 2023

International Conference on Optoelectronic Information and Functional Materials (OIFM 2023)

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Section: Introductionmentioning

confidence: 99%

Surface plasmon enhanced InGaAs/InP APD based on mass-produced epitaxial materials

Chen¹,

Xie²,

Xie³

et al. 2023

International Conference on Optoelectronic Information and Functional Materials (OIFM 2023)

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A miniaturized and wide-angle 3D metamaterial for reflective polarization conversion

Deng

Yin

et al. 2022

Optical Materials

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High coupling efficiency two-color quantum well infrared photodetectors based on dual micro-cavities

Feng,

Jiang,

Zhao

et al. 2024

Advanced Fiber Laser Conference (AFL2023)

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This paper proposes a kind of high coupling efficiency two-color quantum well infrared photodetectors (QWIPs) based on dual micro-cavities. By stacking two metal-insulator-metal (MIM) micro-cavities with multiple quantum wells operating at 12.4 µm and 15.3 µm respectively, the photodetectors can achieve two-color detection in the long and very long infrared wavelengths. The MIM micro-cavity can excite micro-cavity modes and surface plasmon (SP) modes. By controlling the inner and outer radii of the upper micro-cavity's metallic ring and the side length of the lower microcavity's square metallic plate, the operation wavelengths of the two micro-cavities can be independently regulated to match the inherent wavelengths of the two-color quantum wells. Based on the combined effects of micro-cavity modes and SP modes, the coupling efficiency of the device at peak response wavelengths can hit 587% and 4558%, respectively. In addition, the total absorptions reach 0.76 and 0.9. Compared with the traditional coupling structure, the design of dual micro-cavities QWIPs has a more significant enhancement, which will provide a potential scheme to fabricate highperformance two-color QWIPs.

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Stacked Dual-Band Quantum Well Infrared Photodetector Based on Double-Layer Gold Disk Enhanced Local Light Field

Cited by 3 publications

References 27 publications

Surface plasmon enhanced InGaAs/InP APD based on mass-produced epitaxial materials

Surface plasmon enhanced InGaAs/InP APD based on mass-produced epitaxial materials

A miniaturized and wide-angle 3D metamaterial for reflective polarization conversion

High coupling efficiency two-color quantum well infrared photodetectors based on dual micro-cavities

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