Ultra-low-loss high-aspect-ratio Si_3N_4 waveguides | Zendy

Jared F. Bauters | Zendy; Martijn J. R. Heck | Zendy; Demis D. John | Zendy; Daoxin Dai | Zendy; Ming-Chun Tien | Zendy; Jonathon S. Barton | Zendy; Arne Leinse | Zendy; René Heideman | Zendy; Daniel J. Blumenthal | Zendy; John E. Bowers | Zendy

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Ultra-low-loss high-aspect-ratio Si_3N_4 waveguides

Author(s) -

Jared F. Bauters,

Martijn J. R. Heck,

Demis D. John,

Daoxin Dai,

Ming-Chun Tien,

Jonathon S. Barton,

Arne Leinse,

René Heideman,

Daniel J. Blumenthal,

John E. Bowers

Publication year - 2011

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.19.003163

Subject(s) - bend radius , materials science , reflectometry , optics , radius , resonator , chemical vapor deposition , aspect ratio (aeronautics) , waveguide , transmission loss , optoelectronics , time domain , bending , physics , computer security , computer science , composite material , computer vision

We characterize an approach to make ultra-low-loss waveguides using stable and reproducible stoichiometric Si3N4 deposited with low-pressure chemical vapor deposition. Using a high-aspect-ratio core geometry, record low losses of 8-9 dB/m for a 0.5 mm bend radius down to 3 dB/m for a 2 mm bend radius are measured with ring resonator and optical frequency domain reflectometry techniques. From a waveguide loss model that agrees well with experimental results, we project that 0.1 dB/m total propagation loss is achievable at a 7 mm bend radius with this approach.

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