Jennifer Ogilvie

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Ogilvie Jennifer

Associate Professor of Physics & Biophysics


Office Location(s): 4223 Randall
Phone: 734.615.0485
Ogilvie Group Home Page

  • About

    Our research combines the tools of ultrafast and single molecule spectroscopy and nonlinear microscopy to explore the diverse length and time scales of biology: from single molecules to single organisms, on time scales of femtoseconds, to seconds.

    The fastest processes in biology occur within femtoseconds. On this time scale bonds are made and broken, and the motions that ultimately lead to protein function begin. To follow dynamics this fast we need a camera that won’t miss out on the action: that means we need femtosecond time resolution. Ultrafast lasers, which can now be used to generate sub-femtosecond pulses, provide us with the tools we need to access this quantum mechanical realm. Using the versatile tools of ultrafast nonlinear spectroscopy we initiate and probe fundamental processes such as energy and charge transfer that are the engines of biology.

    Experimental detection methods are now sensitive enough that we can study biological molecules one at a time. Single molecule spectroscopy provides fundamentally new information that is often buried in an ensemble-averaged measurement. In addition, it is a unique tool for exploring processes that are difficult to synchronize in ensembles, but that are fundamental to biological function, such as protein-protein interactions.

    Beyond the length scale of protein-protein interactions lies another order of complexity altogether, where proteins work together to orchestrate cellular processes. Today’s microscopes usually use artificial labels to identify and follow particular molecular species. As an alternative, we can use physical properties of the molecules themselves to reveal their role in cellular function. By bringing the tools of nonlinear spectroscopy to the microscope, we obviate the need for labeling and tap into rich and novel modes of molecular contrast.

    Please see our group webpage for further details!

  • Education
    • University of Waterloo, B.S. 1994
    • Simon Fraser University, Canada, M.S. 1996
    • University of Toronto, Canada, Ph.D. 2003.
  • Selected Publications:
  • Articles