Hybrid Glass Light Sources and Devices on Silicon Photonic Chips
Mar 1, 2024
2:30PM to 3:30PM
Date/Time
Date(s) - 01/03/2024
2:30 pm - 3:30 pm
Categories
Prof. Jonathan Bradley
Engineering Physics, McMaster University
Director, Centre for Emerging Device Technologies (CEDT)
In this talk I will present on our recent work on hybrid-glass waveguides on silicon photonic platforms based on straightforward, low-cost and wafer-scale fabrication methods. I will describe our results on low-loss hybrid tellurite-silicon waveguides, high-Q microresonators, and on-chip optical amplifiers and lasers and our recent efforts to optimize their performance and utility in silicon photonic systems. Such devices are promising for new functionalities in silicon photonics for sensing, metrology, computing, and communications applications.
Bio:
Jonathan D. B. Bradley is an Associate Professor in the Department of Engineering Physics at McMaster University and the Director of McMaster University’s Centre for Emerging Device Technologies (CEDT). His research interests focus on integrated light sources, microresonator devices, nonlinear nanophotonics, and silicon photonic microsystems for optical communications, computing, and sensing applications. He has contributed to more than 200 journal and conference publications in the field of integrated photonics.
In-Person: ABB 102
Online: https://mcmaster.zoom.us/j/94715422814
Meeting ID: 947 1542 2814
Passcode: 098232