Abstract
We present the experimental demonstration of a $4\times 4$ silicon electro-optic (EO) switch fabric based on a Benes architecture. Double-ring-assisted Mach–Zehnder interferometers (DR-MZIs) are utilized as the basic switch elements. Silicon resistive microheaters and p-i-n diodes are embedded in both of the microrings of the DR-MZIs for low-loss thermo-optic (TO) phase correction and high-speed switching operation, respectively. The TO tuning power dissipated to align all resonances is 22.37 mW. The maximum EO tuning power required to switch all DR-MZIs is only 1.38 mW. The average on-chip insertion loss is in the range of 4–5.8 dB for all switching states. The transmission spectrum measurement shows that the device can perform switching in a $\sim 35$ -GHz spectral window with the worst crosstalk being −18.4 dB.
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