Two-dimensional pseudo-random optical phased array based on tandem optical injection locking of vertical cavity surface emitting lasers | Zendy

Keyvan Sayyah | Zendy; Oleg M. Efimov | Zendy; Pamela Patterson | Zendy; James H. Schaffner | Zendy; Carson R. White | Zendy; Jean-Francois Seurin | Zendy; Guoyang Xu | Zendy; Alexander Miglo | Zendy

Open Access

Two-dimensional pseudo-random optical phased array based on tandem optical injection locking of vertical cavity surface emitting lasers

Author(s) -

Keyvan Sayyah,

Oleg M. Efimov,

Pamela Patterson,

James H. Schaffner,

Carson R. White,

Jean-Francois Seurin,

Guoyang Xu,

Alexander Miglo

Publication year - 2015

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.23.019405

Subject(s) - vertical cavity surface emitting laser , optics , materials science , tandem , phased array , grating , laser , phased array optics , injection locking , optoelectronics , physics , telecommunications , computer science , antenna (radio) , composite material

We demonstrate, both theoretically and experimentally, a pseudo-random, two-dimensional optical phased array (OPA) concept based on tandem injection locking of 64-element vertical cavity surface emitting laser (VCSEL) arrays. A low cavity-Q VCSEL design resulted in an injection locking optical power of less than 1 μW per VCSEL, providing large OPA scaling potential. Tandem injection locking of two VCSEL arrays resulted in measured controllable optical phase change of 0-1.6π. A high quality beam formed with suppressed grating lobes due to the pseudo-random array design was demonstrated with performance close to simulated results. A preliminary 2.2° x 1.2° beam steering example using the tandem arrays was also demonstrated.

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