Switchable Polarization Beam Splitter Based on GST-on-Silicon Waveguides

A switchable polarization beam splitter utilizing GST-on-silicon waveguides is introduced and comprehensively investigated in this paper. Based on the phase matching and mode hybridization, structural parameters of the presented device are optimized by using the particle swarm optimization algorithm and finite difference time domain method, so that the output fundamental transverse-electric (TE) and transverse-magnetic (TM) modes can be switched by controlling the phase state of GST and the device exhibits broad bandwidth, low crosstalk, and high polarization extinction ratio. For the designed device with the amorphous GST, the crosstalk is lower than dB and the polarization extinction ratio is larger than 21.35dB over the C-band. In the case of the crystalline GST, within the C-band, the crosstalk of less than 27.37dB and the polarization extinction ratio of greater than 21.37dB are achieved.