Tunable ring laser with internal injection seeding and an optically-driven photonic crystal reflector | Zendy

Jie Zheng | Zendy; Chun Ge | Zendy; C. J. Wagner | Zendy; Meng Lu | Zendy; Brian T. Cunningham | Zendy; J. D. Hewitt | Zendy; J. G. Eden | Zendy

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Tunable ring laser with internal injection seeding and an optically-driven photonic crystal reflector

Author(s) -

Jie Zheng,

Chun Ge,

C. J. Wagner,

Meng Lu,

Brian T. Cunningham,

J. D. Hewitt,

J. G. Eden

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.20.014292

Subject(s) - materials science , optics , optoelectronics , reflector (photography) , photonic crystal , laser , grating , physics , light source

Continuous tuning over a 1.6 THz region in the near-infrared (842.5-848.6 nm) has been achieved with a hybrid ring/external cavity laser having a single, optically-driven grating reflector and gain provided by an injection-seeded semiconductor amplifier. Driven at 532 nm and incorporating a photonic crystal with an azobenzene overlayer, the reflector has a peak reflectivity of ~80% and tunes at the rate of 0.024 nm per mW of incident green power. In a departure from conventional ring or external cavity lasers, the frequency selectivity for this system is provided by the passband of the tunable photonic crystal reflector and line narrowing in a high gain amplifier. Sub - 0.1 nm linewidths and amplifier extraction efficiencies above 97% are observed with the reflector tuned to 842.5 nm.

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