Fabrication & Characterization of Integrated Photonics Devices
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We have projects which are devoted to developing new integrated optical devices, such as low threshold on-chip lasers, and photonic circuitry, and using these devices for applications in quantum communications (collaborations with researchers globally). Additional projects are also geared to developing new optical instruments for bio-sensing.
We have several projects investigating light-matter interactions between the optical field in waveguides and resonant cavities and different material coatings. For example, we are studying how nanomaterial coatings that exhibit non-linear optical properties can be used to manipulate the optical behavior of the device. We are also investigating using active materials, such as nonlinear optical chalcogenides, organic small molecules, and 2D materials, as coatings to further improve or modify the behavior of integrated devices.
The objective of this project is to design and implement quantum photonic circuits integrated on chips for applications in single-photon sources, quantum information, and computation. The main research projects are based on coupling quantum-dot to an optical microcavity and using nonlinear chalcogenide microring. Development of quantum photonic circuits with an architecture of integrated optics.