Review of integrated magneto-optical isolators with rare-earth iron garnets for polarization diverse and magnet-free isolation in silicon photonics [Invited]

Karthik Srinivasan, Bethanie J. H. Stadler

Research output: Contribution to journalReview articlepeer-review

26 Scopus citations

Abstract

Passive optical isolators are needed in silicon photonics but unavailable due to challenges in rare-earth iron garnet processing and integration. Material challenges include incompatibility with silicon and high annealing temperatures, and design challenges include a need for polarization diversity and a preference for no external magnetic bias. These challenges have restricted optical isolation to discrete modules that require physical pick and place of bulk garnet pieces. This review presents developments in the processing of magneto-optical garnets on Si and the enhancement of their Faraday rotation that enables small footprint isolators on silicon waveguide structures. For example, seedlayers and/or new garnet compositions have enabled monolithic Si integration, and in some cases, hybrid integration of garnet-on-garnet or transfer-printed garnet nanosheets enable reduced on-chip thermal processing. Integrated isolators that utilize non-reciprocal phase shift (NRPS) or non-reciprocal mode conversion (NRMC) have been demonstrated to have isolation ratios up to 30 dB, insertion loss as low as 9 dB, polarization diversity and magnet-free operation in the desired telecommunication wavelengths. The advances in materials, processing techniques, and isolator designs shown here will pave the way for on-chip isolators and novel multi-lane photonic architectures.

Original languageEnglish (US)
Pages (from-to)697-716
Number of pages20
JournalOptical Materials Express
Volume12
Issue number2
DOIs
StatePublished - Feb 1 2022

Bibliographical note

Funding Information:
The authors would like to acknowledge the contributions of Dr. David C. Hutchings. Dr. Cui Zhang, Dr. Sang-Yeob Sung, Dr. Andrew D. Block, Dr. Prabesh Dulal, and Dr. Thomas E. Gage to the research presented in this review. Parts of this work were carried out in the Characterization Facility and the Minnesota Nano Center, which receives partial support from the NSF through the MRSEC (Award Number DMR-2011401) and the Nanotechnology Coordinated Infrastructure (NNCI) program under Award Number ECCS-2025124.

Publisher Copyright:
© 2022 Optica Publishing Group under the terms of the Optica Open Access Publishing Agreement.

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