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Strictly Non-Blocking 8 × 8 Silicon Photonics Switch Operating in the O-Band

Keijiro Suzuki, Ryotaro Konoike, Guangwei Cong, Koji Yamada, Shu Namiki, Hitoshi Kawashima, Kazuhiro Ikeda

2020Journal of Lightwave Technology19 citationsDOIOpen Access PDF

Abstract

In this article, we report the development of a strictly non-blocking 8 × 8 silicon photonics switch designed to operate in the O-band. This 8 × 8 switch is based on path-independent insertion-loss topology and is composed of 2 × 2 thermo-optic double Mach-Zehnder switches and adiabatic intersections. The fabricated 8 × 8 switch chip is electrically packaged with a ceramic chip carrier and inserted into a socket on a printed circuit board. As for the optical connection, an optical fiber array and edge couplers are used. The fabricated 8 × 8 switch exhibits an average fiber-to-fiber insertion loss of 16.6 dB, including a fiber to chip coupling loss of 11.2 dB and crosstalk of less than -30 dB over a bandwidth of 70 nm. Moreover, we investigate the nonlinear characteristics of Si devices in the O-band. The cw input/output response and degradation free 28-Gb/s OOK signal transmission demonstrate that two-photon absorption and four-wave mixing are not significant when the input power is less than approximately 4 mW. These results indicate that it is possible to produce low-loss and low-crosstalk silicon photonics switches that operate in the O-band.

Topics & Concepts

Insertion lossMaterials scienceOptical switchOptoelectronicsPhotonicsSilicon photonicsPower dividers and directional couplersOpticsPhysicsPhotonic and Optical DevicesOptical Network TechnologiesAdvanced Fiber Laser Technologies
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