Fully integrated hybrid silicon two dimensional beam scanner.

In this work we present the first fully-integrated free-space beam-steering chip using the hybrid silicon platform. The photonic integrated circuit (PIC) consists of 164 optical components including lasers, amplifiers, photodiodes, phase tuners, grating couplers, splitters, and a photonic crystal lens. The PIC exhibited steering over 23° x 3.6° with beam widths of 1° x 0.6°.

Heterogeneous lasers and coupling to Si3N4 near 1060 nm.

A III-V/Si3N4 platform on silicon is presented capable of broad-spectral performance with initial heterogeneous lasers near 1060 nm. Continuous wave Fabry-Perot laser results for heterogeneous InGaAs/GaAs multiple quantum well (MQW) laser with output power approaching 0.25 mW on Si is demonstrated. Taper transmission loss measurements from III-V to Si3N4 are measured to be 2.5±0.75 dB.

Hybrid III/V silicon photonic source with integrated 1D free-space beam steering.

A chip-scale optical source with integrated beam steering is demonstrated. The chip was fabricated using the hybrid silicon platform and incorporates an on-chip laser, waveguide splitter, amplifiers, phase modulators, and surface gratings to comprise an optical phased array with beam steering across a 12° field of view in one axis. Tuning of the phased array is used to achieve 1.8°(steered axis)×0.6°(nonsteered axis) beam width with 7 dB background suppression for arbitrary beam direction within the field of view.

Two-dimensional free-space beam steering with an optical phased array on silicon-on-insulator.

We demonstrate a 16-channel, independently tuned waveguide surface grating optical phased array in silicon for two dimensional beam steering with a total field of view of 20° x 14°, beam width of 0.6° x 1.6°, and full-window background peak suppression of 10 dB.