Silicon Photonic Wavelength-Selective Switch Based on an Array of Adiabatic Elliptical-Microrings

A compact silicon photonic wavelength-selective switch (WSS) based on an array of elliptical microrings with adiabatically varied radii and widths is proposed and demonstrated experimentally. A 1×4 WSS is designed and realized by integrating four cells sharing the same bus waveguide. Particularly ea...

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Veröffentlicht in:	Journal of lightwave technology 2023-09, Vol.41 (17), p.1-8
Hauptverfasser:	Zhang, Changping, Xiang, Yuluan, Liu, Shujun, Liu, Dajian, Yan, Hao, Peng, Yingying, Li, Huan, Shi, Yaocheng, Liu, Liu, Kumar, Rajesh, Panepucci, Roberto R., Dai, Daoxin
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Sprache:	eng
Schlagworte:	adiabatic elliptical-microring Adiabatic flow Arrays Channels Couplings Crosstalk Data centers Multiplexers Optical crosstalk Optical device fabrication Optical switches Optical waveguides Photonics Silicon Silicon photonics Switching theory Waveguides Wavelength division multiplexing Wavelength-selective switch
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container_title	Journal of lightwave technology
container_volume	41
creator	Zhang, Changping Xiang, Yuluan Liu, Shujun Liu, Dajian Yan, Hao Peng, Yingying Li, Huan Shi, Yaocheng Liu, Liu Kumar, Rajesh Panepucci, Roberto R. Dai, Daoxin
description	A compact silicon photonic wavelength-selective switch (WSS) based on an array of elliptical microrings with adiabatically varied radii and widths is proposed and demonstrated experimentally. A 1×4 WSS is designed and realized by integrating four cells sharing the same bus waveguide. Particularly each cell contains four elliptical microring units corresponding to four wavelength-channels. For the fabricated WSS, the average excess loss at the output port of all the channels is measured to be less than 1 dB, while the crosstalk between adjacent channels is less than −20 dB. Leveraging the thermo-optic effect and fine wavelength-tuning linearity, precise alignment of the resonance peak can be implemented, enabling the selection of arbitrary wavelength-channel for any port. The fabricated WSS is used for realizing wavelength-selective data routing with 30 Gbps non-return-to-zero signals and open eye diagrams are obtained. The proposed architecture has excellent scalability, which can facilitate the development of reconfigurable optical add/drop multiplexers in wavelength-division-multiplexing systems, and is suitable for building large-scale optical data center interconnects.
doi_str_mv	10.1109/JLT.2023.3264613
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A 1×4 WSS is designed and realized by integrating four cells sharing the same bus waveguide. Particularly each cell contains four elliptical microring units corresponding to four wavelength-channels. For the fabricated WSS, the average excess loss at the output port of all the channels is measured to be less than 1 dB, while the crosstalk between adjacent channels is less than −20 dB. Leveraging the thermo-optic effect and fine wavelength-tuning linearity, precise alignment of the resonance peak can be implemented, enabling the selection of arbitrary wavelength-channel for any port. The fabricated WSS is used for realizing wavelength-selective data routing with 30 Gbps non-return-to-zero signals and open eye diagrams are obtained. 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subjects	adiabatic elliptical-microring Adiabatic flow Arrays Channels Couplings Crosstalk Data centers Multiplexers Optical crosstalk Optical device fabrication Optical switches Optical waveguides Photonics Silicon Silicon photonics Switching theory Waveguides Wavelength division multiplexing Wavelength-selective switch
title	Silicon Photonic Wavelength-Selective Switch Based on an Array of Adiabatic Elliptical-Microrings
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