Quantum Optics Lab

— Advancing quantum photonics, quantum sensing and quantum information technologies through innovative optical and photonic systems.

About Lab

The Quantum Light Laboratory explores the physics and applications of quantum light and photonic systems. Our research focuses on quantum optics, whispering-gallery-mode resonators, quantum sensing, integrated quantum photonics, and quantum information science.

By combining precision optical experiments with photonic device engineering, we develop next-generation quantum technologies for sensing, communication, and information processing.

Quantum Optics

We study the generation, manipulation, and detection of nonclassical light, including single photons and quantum states of light, for applications in precision measurement and quantum technologies.

Whispering-Gallery-Mode Resonators

We develop high-Q whispering-gallery-mode resonators for studying nonlinear optics, cavity quantum electrodynamics, and ultra-sensitive optical sensing.

Quantum Sensing

Our research explores quantum-enhanced measurement techniques using optical cavities and nonclassical light to detect extremely small physical signals.

Integrated Quantum Photonics

We design and study photonic integrated circuits that enable scalable quantum optical systems for sensing, computation, and communication.

Quantum Information

We investigate photonic platforms for quantum information science, including the generation of correlated and entangled photons for quantum communication and networks.

Our Mission

Our goal is to advance quantum photonics technologies that enable new capabilities in sensing, communication, and information processing. By integrating fundamental physics with photonic device engineering, we aim to develop practical quantum technologies and train the next generation of quantum scientists.

Join the Lab

We welcome motivated undergraduate and graduate students interested in quantum optics, photonics, and quantum technologies. Students gain hands-on experience with laser systems, optical experiments, photonic devices, and advanced measurement techniques.