Large optical spectral range dispersion engineered silicon-based photonic crystal waveguide modulator | Zendy

Amir Hosseini | Zendy; Xiaochuan Xu | Zendy; Harish Subbaraman | Zendy; Che-Yun Lin | Zendy; Somayeh Rahimi | Zendy; Ray T. Chen | Zendy

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Large optical spectral range dispersion engineered silicon-based photonic crystal waveguide modulator

Author(s) -

Amir Hosseini,

Xiaochuan Xu,

Harish Subbaraman,

Che-Yun Lin,

Somayeh Rahimi,

Ray T. Chen

Publication year - 2012

Publication title -

optics express

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.394

H-Index - 271

ISSN - 1094-4087

DOI - 10.1364/oe.20.012318

Subject(s) - optics , materials science , photonic crystal , slow light , optical modulator , dispersion (optics) , optoelectronics , silicon photonics , electro optic modulator , waveguide , bandwidth (computing) , silicon , phase modulation , physics , telecommunications , computer science , phase noise

We present a dispersion engineered slow light silicon-based photonic crystal waveguide PIN modulator. Low-dispersion slow light transmission over 18 nm bandwidth under the silica light line with a group index of 26.5 is experimentally confirmed. We investigate the variations of the modulator figure of merit, V(π) × L, as a function of the optical carrier wavelength over the bandwidth of the fundamental photonic crystal waveguide defect mode. A large signal operation with a record low maximum V(π )× L of 0.0464 V · mm over the low-dispersion optical spectral range is demonstrated. We also report the device operation at 2 GHz.

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