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Responsibility optimization of a high-speed InP/InGaAs photodetector with a back reflector structure

Yuxuan Wang, Guanyu Li, Xiaowen Gu, Yuechan Kong, Youdou Zheng, Yi Shi

2022Optics Express33 citationsDOIOpen Access PDF

Abstract

Top-illuminated PIN photodetectors (PDs) are widely utilized in telecommunication systems, and more efforts have been focused on optimizing the optical responsibility and bandwidth for high-speed and capacity applications. In this work, we develop an integrated top-illuminated InP/InGaAs PIN PD with a back reflector by using a microtransfer printing (µ-TP) process. An improved µ-TP process, where the tether of silicon nitride instead of photoresist, is selected to support an underetched III-V device on an InP substrate before transfer. According to theoretical simulations and experimental measurements, the seamless integration of the PD with a back reflector through µ-TP process makes full use of the 2 nd or even multiple reflecting light in the absorption layer to optimize the maximum responsibility. The integrated device with a 5 µm square p-mesa possesses a high optical responsibility of 0.78 A/W and 3 dB bandwidth of 54 GHz using a 500 nm i-InGaAs absorption layer. The present approach for top-illuminated PIN PDs demonstrates an advanced route in which a thin intrinsic layer is available for application in high-performance systems.

Topics & Concepts

OpticsPhotodetectorReflector (photography)Bandwidth (computing)OptoelectronicsMaterials scienceOptical communicationLayer (electronics)Silicon nitrideAbsorption (acoustics)SiliconPhotonic integrated circuitIntegrated opticsPhotonicsComputer scienceAttenuation coefficientDistributed Bragg reflectorProcess (computing)Substrate (aquarium)Square (algebra)Semiconductor Quantum Structures and DevicesPhotonic and Optical DevicesAdvanced Photonic Communication Systems
Responsibility optimization of a high-speed InP/InGaAs photodetector with a back reflector structure | Litcius