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Compact chip-scale filter based on curved waveguide Bragg gratings

Zamek, S.; Tan, D.T.H.; Khajavikhan, M.; Ayache, M.; Nezhad, M.P.; Fainman, Y.

Authors

S. Zamek

D.T.H. Tan

M. Khajavikhan

M. Ayache

Y. Fainman



Abstract

We propose a method for miniaturization of filters based on curved waveguide Bragg gratings, so that long structures can be packed into a small area on a chip. This eliminates the stitching errors introduced in the fabrication process, which compromise the performance of long Bragg gratings. Our approach relies on cascading curved waveguide Bragg gratings with the same radius of curvature. An analytical model for the analysis of these devices was developed, and a filter based on this model was designed and fabricated in a silicon on insulator platform. The filter had a total length of 920μm, occupied an area of 190μm×114μm, and exhibited a stop band of 1.7nm at 1.55μm and an extinction ratio larger than 23dB.

Citation

Zamek, S., Tan, D., Khajavikhan, M., Ayache, M., Nezhad, M., & Fainman, Y. (2010). Compact chip-scale filter based on curved waveguide Bragg gratings. Optics Letters, 35(20), 3477-3479. https://doi.org/10.1364/OL.35.003477

Journal Article Type Article
Acceptance Date Aug 1, 2010
Publication Date 2010
Deposit Date Aug 21, 2024
Journal Optics Letters
Print ISSN 0146-9592
Electronic ISSN 1539-4794
Publisher Optical Society of America
Peer Reviewed Peer Reviewed
Volume 35
Issue 20
Pages 3477-3479
DOI https://doi.org/10.1364/OL.35.003477


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