OSC Colloquium: Prof. Jennifer Choy

    Date: 
    Thursday, April 2, 2020 - 3:30pm - 5:00pm
    Location: 
    Meinel 307
    Address: 

    1630 E. University Blvd.

    3rd Floor Lobby area

    Registration: 

    Open to campus and public.

    Description: 

    Speaker: Prof. Jennifer Choy

    Topic: Atomic and solid-state quantum sensing

    Host: Felipe Guzman  

    Visit our website for future lecture dates and speaker information: http://www.optics.arizona.edu/news-events/events/colloquium For a list of our archived lectures: http://www.optics.arizona.edu/news-events/events/colloquium/archive

    Abstract(s): 

    The discrete electronic energy levels in atoms and atom-like systems and the ability to probe and control them using their interactions with electromagnetic fields have enabled a host of applications in quantum sensing and metrology. In this talk, I will describe the realization of quantum sensors in two material platforms: cooled neutral atoms and artificial atoms found in wide-bandgap semiconductors. The benefits and challenges of these platforms will be illustrated through examples from my prior research, including the development of sensitive accelerometers and gyroscopes based on cold-atom interferometers, and the engineering of the optical properties of color centers in diamond for applications in magnetometry and quantum information science. I will discuss the critical developments in photonic engineering and material science that are needed to improve device utility and performance in atomic and solid-state quantum sensors and our research progress at UW-Madison towards addressing these needs.

    Speaker Bio(s): 

    Jennifer Choy is an Assistant Professor at the Department of Engineering Physics at the University of Wisconsin–Madison since January 2019. Prior to joining UW-Madison, she was a Principal Member of Technical Staff at Draper Laboratory, where she led developments of atomic and optical inertial sensors. Jen’s research interests include quantum sensing, experimental atomic and optical physics, and nanophotonics. She received S.B. degrees in Physics and Nuclear Engineering from the Massachusetts Institute of Technology, and a Ph.D. in Applied Physics from Harvard University.

    Schedule: 

    Refreshments 3:30pm

    Lecture @ 3:45pm - 5pm