G F R Chen scite author profile

G F R Chen

2Publications

16Citation Statements Received

0Citation Statements Given

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Singapore University of Technology and Design

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Second and third order dispersion generation using nonlinearly chirped silicon waveguide gratings

Chen¹,

Wang²,

Donnelly³

et al. 2013

Opt. Express

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The simultaneous generation of second and third order dispersion is demonstrated using nonlinearly chirped silicon waveguide gratings. The nonlinearly chirped gratings are designed to generate varying signs and magnitudes of group velocity dispersion and dispersion slope. The design, fabrication, and experimental characterization of the silicon waveguide gratings are performed. Second order dispersion as high as -2.3 X 10⁶ ps/nm²/km and third order dispersion as high as 1.2 X 10⁵ ps/nm²/km and as low as 1.2 X 10⁴ ps/nm²/km is demonstrated at 1.55 µm.

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Dispersion compensation of high-speed data using an integrated silicon nitride ring resonator

et al. 2022

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Dispersion impairments are a well-known limitation in data center communications, limiting both the usable data rates and reaches. Several companies today adopt silicon photonics as a core technology in their transceiver products. This presents an opportunity for silicon photonics-based dispersion management technologies to be integrated with the transceiver transmitter or receiver. In this manuscript, we present a ring-resonator based, tunable dispersion compensation device, providing dispersion ranging as wide from + 12.9 × 103ps/nm to −12.3 × 103ps/nm. Thermo-optic tuning from 20°C to 70°C is demonstrated to allow continuous wavelength tuning across 200 GHz. High-speed experiments using 25 Gb/s non-return-to-zero data propagating through 20 km of single mode fiber show that a significant improvement in the eye diagram is achieved after compensation with the ring-resonator device. We demonstrate a significant improvement in the BER from 10−3 to 10−11 for data rates of 25 and 25.78125 Gb/s.

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G F R Chen

Second and third order dispersion generation using nonlinearly chirped silicon waveguide gratings

Dispersion compensation of high-speed data using an integrated silicon nitride ring resonator

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