Probing Ultrafast Dynamics in Small Molecules Using Vacuum Ultraviolet Pulses

Travis Wright; Elio Champenois; James Cryan; Dipanwita Ray; Niranjan Shivaram; Dan Slaughter; Felix Sturm; Chan Yang; Ali Belkacem

Probing Ultrafast Dynamics in Small Molecules Using Vacuum Ultraviolet Pulses

ORAL

Abstract

A time-resolved study of ultrafast energy conversion in molecular systems is presented. The mechanisms underlying these ultrafast conversions of energy are studied with a novel VUV~pump XUV~probe spectroscopy. Velocity map imaging and time of flight techniques are used to time resolve the kinetic energy release, total ion yield, and angular distributions of both photoions and photoelectrons. This technique allows us to observe state specific dynamics near conical intersections in ethylene and carbon dioxide.

^*Our work is supported by Chemical Sciences, Geosciences and Biosciences division of BES/DOE

June 6, 2014, 11:30 AM – June 6, 2014, 11:42 AM

Authors

Travis Wright
- Lawrence Berkeley National Lab
Elio Champenois
- Lawrence Berkeley National Lab
James Cryan
- Lawrence Berkeley National Lab
Dipanwita Ray
- Lawrence Berkeley National Lab
Niranjan Shivaram
- Lawrence Berkeley National Lab
Dan Slaughter
- Lawrence Berkeley National Lab
Felix Sturm
- Lawrence Berkeley National Lab
Chan Yang
- Department of Physics, National Tsing Hua University
Ali Belkacem
- Lawrence Berkeley National Lab