Tuesday, October 13, 2020
11:00 AM -
12:15 PM
Online Event
Chemical Physics Seminar
Series: Chemical Physics Seminar Series
How do complex materials form, transform, and transport energy at the nanoscale?
Naomi Ginsberg,
Associate Professor of Chemistry,
College of Chemistry,
University of California, Berkeley,
Speaker's Bio:
I am a scientist currently focused on visualizing ultrafast energy flow in natural and artificial light harvesting systems and on combining electron and optical microscopies to facilitate high-resolution studies of living things and molecular interactions in solution. My background in chemistry, physics, and engineering has led me to observe coherent and previously obscured energy transfer in light harvesting complexes from plants, to develop polarization techniques in ultrafast multidimensional spectroscopy to extract structure from electronically-coupled systems, to slow, stop, and store light pulses in some of the coldest atom clouds on Earth, and to discover, follow, and understand the interactions of superfluid nonlinear excitations.
I am a scientist currently focused on visualizing ultrafast energy flow in natural and artificial light harvesting systems and on combining electron and optical microscopies to facilitate high-resolution studies of living things and molecular interactions in solution. My background in chemistry, physics, and engineering has led me to observe coherent and previously obscured energy transfer in light harvesting complexes from plants, to develop polarization techniques in ultrafast multidimensional spectroscopy to extract structure from electronically-coupled systems, to slow, stop, and store light pulses in some of the coldest atom clouds on Earth, and to discover, follow, and understand the interactions of superfluid nonlinear excitations.
This is an online event.
Please email [email protected] for Zoom Link and Passcode for meeting. Thank you
Event Sponsors:
For more information, please contact Elisha Okawa by phone at 6263953367 or by email at [email protected].