Image-based adaptive femtosecond control of molecules
POSTER
Abstract
Incorporating three-dimensional momentum images as feedback into an adaptive control loop allows for identification and manipulation of precise control objectives. For laser control of molecular dynamics, this is accomplished by rapidly inverting velocity map images and deriving a fitness function from the angle-resolved kinetic energy release of the photofragments. We have applied this technique to acetylene, ethylene, and diatomic molecules to explore isomerization and angle-resolved dissociation, among other objectives. Beyond the experiments themselves, the resulting images can also be utilized to unravel the control processes and inform subsequent theoretical efforts. Here we present progress toward understanding the dissociation dynamics in these systems controlled by complex ultrafast laser pulses.
*Augustana College personnel are supported by NSF grants PHY-0969687 and EPS-0903804 while JRML is supported by the Chemical Sciences, Geosciences, and Biosciences Division, Office of Basic Energy Science, Office of Science, US Department of Energy.