Following Ultrafast Radiationless Relaxation Dynamics With Strong Field Dissociative Ionization: A Comparison Between Adenine, Uracil, and Cytosine

March 22, 2011

Journal Article

Following Ultrafast Radiationless Relaxation Dynamics With Strong Field Dissociative
Ionization: A Comparison Between Adenine, Uracil, and Cytosine

Abstract

We present the application of ultrafast time- and mass-resolved ion yield laser spectroscopy in conjunction with ab initio electronic structure calculations to track molecular excited-state dynamics. We discuss how molecular fragment ions can be associated with conformations the molecule assumes during its relaxation, and how various features of the pump-probe signal for those fragments can be used to infer details of the excitedstate dynamics. We present results for radiationless relaxation in DNA and RNA bases adenine, cytosine, and uracil in the gas phase, pumped near a one-photon resonance transition to an excited state, and probed via strong-field near-IR dissociative ionization.

Revised: February 28, 2012 | Published: March 22, 2011

Citation

Kotur M., T.C. Weinacht, C. Zhou, and S. Matsika. 2011. "Following Ultrafast Radiationless Relaxation Dynamics With Strong Field Dissociative Ionization: A Comparison Between Adenine, Uracil, and Cytosine." IEEE Journal on Selected Topics in Quantum Electronics 18, no. 1:187-194. doi:10.1109/JSTQE.2011.2107892