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15.26Gb/s Si-substrate GaN high-speed visible light photodetector with super-lattice structure

Zengyi Xu, Zhiteng Luo, Xianhao Lin, Chao Shen, Xiaolan Wang, Jianli Zhang, Guangxu Wang, Fengyi Jiang, Nan Chi

2023Optics Express22 citationsDOIOpen Access PDF

Abstract

In this paper, we studied a series of high-speed photodetectors (PD) with different super-lattice interlayer periods and the scale of the effective area to examine their communication performance. The mini-PDs are designed with a single 1 mm × 1 mm effective area. The mini-PDs have three different super-lattice (SL) periods in the interlayer: 8, 15, and 32. The micro-PD sample has multiple 50um by 50um photosensitive areas that form a 4 × 4 receiver array, which shares a common N electrode. Its SL period is 26. The experiment shows that mini-PDs have the advantages such as better tolerance to beam spot deviation, larger field of view (FoV), higher responsibility, and wider peak width in spectral response. But micro-LED samples outperform the others in communication capacity and wavelength selectivity. The 8, 15, and 32 SL mini-PD samples achieve 6.6, 7.3, and 8.8 Gb/s data rates, respectively. The micro-PD gains the maximum data rate of 14.38Gb/s without applying waveform level post-equalization, and 15.26Gb/s after using an NN-based post-equalizer. This experiment shows that with proper DSP, GaN-based PD would be suitable for high-speed VLC systems, especially for the short wavelength spectrum in visible light.

Topics & Concepts

PhotodetectorVisible light communicationMaterials scienceWavelengthOpticsOptoelectronicsLattice (music)WaveformVisible spectrumLattice constantElectrodePhysicsComputer scienceTelecommunicationsDiffractionLight-emitting diodeQuantum mechanicsAcousticsRadarPhotonic and Optical DevicesGaN-based semiconductor devices and materialsAdvanced Photonic Communication Systems
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