Litcius/Paper detail

Optical isolation using microring modulators

Nathan Dostart, Hayk Gevorgyan, Deniz Onural, Miloš A. Popović

2020Optics Letters33 citationsDOIOpen Access PDF

Abstract

Optical isolators, while commonplace in bulk and fiber optical systems, remain a key missing component in integrated photonics. Isolation using magneto-optic materials has been difficult to integrate into complementary metal-oxide-semiconductor (CMOS) fabrication platforms, motivating the use of other paths to effective non-reciprocity such as temporal modulation. We demonstrate a non-reciprocal element comprising a pair of microring modulators and a microring phase shifter in an active silicon photonic process, which, in combination with standard bandpass filters, yields an isolator on-chip. Isolation up to 13 dB is measured with a 3 dB bandwidth of 2 GHz and insertion loss of 18 dB. We also show transmission of a 4 Gbps optical data signal through the isolator while retaining a wide-open eye diagram. This compact design, in combination with increased modulation efficiency, could enable modulator-based isolators to become a standard 'black-box' component in integrated photonics CMOS foundry platform component libraries.

Topics & Concepts

Optical isolatorMaterials scienceIsolatorSilicon photonicsInsertion lossPhotonicsOptoelectronicsOptical fiberBandwidth (computing)OpticsPhotonic integrated circuitPhase modulationWavelength-division multiplexingModulation (music)Optical communicationOptical cross-connectMulti-mode optical fiberPhase shift moduleCMOSFabricationOptical Carrier transmission ratesOptical switchNanophotonicsTransmission (telecommunications)Optical filterIntegrated opticsOptical modulatorFiber optic splitterBand-pass filterElectronic engineeringSiliconIsolation (microbiology)Optical attenuatorPlastic optical fiberOptical performance monitoringFrequency modulationMagneto-Optical Properties and ApplicationsAdvanced Photonic Communication SystemsPhotonic and Optical Devices