Compact wavelength- and bandwidth-tunable microring modulator | Zendy

Hossam Shoman | Zendy; Hasitha Jayatilleka | Zendy; Anthony H. K. Park | Zendy; Ajay Mistry | Zendy; Nicolas A. F. Jaeger | Zendy; Sudip Shekhar | Zendy; Lukas Chrostowski | Zendy

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Compact wavelength- and bandwidth-tunable microring modulator

Author(s) -

Hossam Shoman,

Hasitha Jayatilleka,

Anthony H. K. Park,

Ajay Mistry,

Nicolas A. F. Jaeger,

Sudip Shekhar,

Lukas Chrostowski

Publication year - 2019

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.27.026661

Subject(s) - bandwidth (computing) , optics , free spectral range , fabrication , extinction ratio , wavelength division multiplexing , optoelectronics , computer science , wavelength , materials science , physics , telecommunications , medicine , alternative medicine , pathology

Fabrication errors currently hold back the large-scale adoption of silicon micro-ring modulators (MRMs). The ability to correct their spectral features post-fabrication is required to enable their commercialization. Here, we report and demonstrate an MRM that uses a tunable two-point coupling scheme, which maintains the MRM's compact footprint (60 µm×45 µm) and allows one to tune the MRM's operating wavelength and adjust the optical bandwidth (and/or extinction ratio). This means that one can compensate for fabrication errors and thereby improve the yields. We confirm the modulator's operation by showing NRZ and PAM-4 modulation, up to 28 Gb/s and 19.9 Gb/s, respectively. Also, the proposed tunable MRM maintains the microring's free-spectral range (FSR), which proves its compatibility for configurable and high-bandwidth DWDM applications.

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