Presentation: Integrated Soliton Microcombs and Applications
Theme: C11. Semiconductor and Integrated Optical Devices
Kerry Vahala is the Jenkins Professor and Professor of Applied Physics at Caltech. He has pioneered nonlinear optics in high-Q optical micro resonators. His research group has launched many of the areas of study in this field and invented optical resonators that hold the record for highest optical Q on a semiconductor chip. Vahala has applied these devices to a wide range of nonlinear phenomena and applications. This includes the first demonstration of parametric oscillation and cascaded four-wave mixing in a micro cavity – the central regeneration mechanisms for frequency micro combs; electro-optical frequency division – used in the most stable commercial K-band oscillators; and the first observation of dynamic back action in cavity optomechanical systems.
His micro-resonator devices are used at the National Institute of Standards and Technology (NIST) in chip-based optical clocks and frequency synthesizers. They have also been used at the Keck II observatory in Hawaii as miniature astrocombs in the search for exoplanets.
Vahala’s current research is focused on the application of high-Q optical micro resonators to miniature precision metrology systems as well as monolithic optical gyroscopes. Professor Vahala was involved in the early effort to develop quantum-well lasers for optical communications and received the IEEE Sarnoff Award for his research on quantum-well laser dynamics. He has also received an Alexander von Humboldt Award for his work on ultra-high-Q optical microcavities, a NASA achievement award for application of frequency combs to exoplanet detection and is a fellow of the IEEE, the IEEE Photonics Society and the Optical Society of America.