Integrated Photonics Lab

Integrated Photonics Lab

Where Photons Become Technology!

Advanced Prototyping

We design, fabricate, and characterize state-of-the-art photonic devices, from photonic crystals and Bragg gratings to nano-plasmonic cavity lasers, accelerating the transition from concept to application.

Innovative Research

Our lab explores integrated photonics for transformative applications from low-threshold on-chip lasers to quantum interconnects and light–matter interactions in resonant cavities pushing the frontiers of science and technology.

Precision & Impact

Through hybrid and heterogeneous integration techniques, we ensure high-performance, reliable photonic integrated circuits (PICs) that advance data communications, quantum computing, and next-generation photonic systems.

Dr. Gholam-Mohammad Parsanasab

Assistant Professor of Electrical Engineering

Dr. Gholam-Mohammad Parsanasab, Assistant Professor of Electrical Engineering at Shahid Beheshti University, directs the Integrated Photonics Laboratory. His research focuses on cutting-edge integrated photonic devices and quantum photonics, advancing technologies for lasers, quantum interconnects, and light–matter interactions. His works is shaping the future of photonics systems for communications, sensing and computing.

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Research, Products & Services

We integrate advanced research, innovative products, and specialized services to drive progress in integrated photonics.

Research

We develop integrated photonic devices for quantum, nonlinear, and sensing applications, advancing technologies in quantum communication and optical computing.

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Products

Our products include high-efficiency fiber-coupled EO modulators and MOEMS accelerometers, designed for precision, stability, and high-speed photonic systems.

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Services

We offer micro-layer analysis, optical lithography, and fiber–waveguide coupling to support custom research and photonic device development.

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Fields of Research

Quantum Devices

We design and investigate integrated quantum photonic circuits, enabling secure communications, quantum interconnects, and scalable platforms for quantum information processing.

Optical Sensors

Our work on integrated optical sensors focuses on miniaturized, high-sensitivity detection systems for environmental monitoring, biomedical applications, and precision measurements

Nonlinear Devices

We study nonlinear optical effects in integrated platforms to realize new functionalities such as all-optical switching, frequency conversion, and ultrafast signal processing.

Molecule Lasers

We engineer coupled photonic resonators, known as photonic molecules, to develop compact, efficient, and tunable laser systems for advanced sensing and communication applications.