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All-silicon multi-band TM-pass polarizer on a 220 nm SOI enabled by multiplexing grating regimes

Jinsong Zhang, Luhua Xu, Deng Mao, Yannick D’Mello, Weijia Li, Stéphane Lessard, David V. Plant

2021Optics Express33 citationsDOIOpen Access PDF

Abstract

We propose an all-silicon design of a multi-band transverse-magnetic-pass (TM-pass) polarizer. The device is based on one-dimensional gratings that work under different regimes that depend on the polarization. With a tapered structure, it is revealed that the operation bandwidth can be extended by multiplexing the diffraction in O-band and the reflection in S-, C-, and L-bands for the transverse-electric (TE) mode. By simulation, we achieve a 343 nm device bandwidth with insertion loss (IL) < 0.4 dB and polarization extinction ratio (PER) > 20 dB. The operation wavelength range covers commonly-used optical telecommunication bands including the O-, S-, C-, and L- bands. Experimental results also show IL < 1.6 dB and PER > 20 dB from 1265 nm to 1360 nm corresponding to the O-band, and from 1500 nm to 1617 nm that corresponds to the C-band. The device is a single-etched design on the standard 220 nm silicon-on-insulator (SOI) with silicon oxide cladding. Such a simple and compatible design paves the way for developing practical multi-band silicon photonic integrated circuits.

Topics & Concepts

Silicon on insulatorOpticsExtinction ratioPolarizerMaterials scienceInsertion lossSiliconOptoelectronicsGratingBandwidth (computing)Silicon photonicsWavelengthPhysicsTelecommunicationsBirefringenceComputer sciencePhotonic and Optical DevicesOptical Coatings and GratingsPhotonic Crystals and Applications