Production of Low Energy Electrons in a Small Molecular Environment

F.P. Sturm; B. Gaire; I. Bocharova; P. Braun; A. Belkacem; Th. Weber; W. Cao; I. Ben-Itzhak; J.B. Williams; A. Landers; R. Doerner

Production of Low Energy Electrons in a Small Molecular Environment

ORAL

Abstract

Low energy electrons contribute significantly to radiation damage in biological matter by ionizing neighboring molecules and inducing DNA strand breaking. However, little is known about the correlated generation of electrons and the mechanisms of the subsequent electron-initiated processes in molecular environments or clusters at a microscopic level. Applying a 3d momentum imaging technique (COLTRIMS), we have investigated the single-photon double ionization of oxygen dimers in order to single out and distinguish between different and important radiationless mechanisms (ICD and TS1). Their evolution is studied as a function of the energy of the incident photon. Differential energy and angular distributions help to understand the contributions of these competing mechanisms.

^*This work was supported by the Director, Office of Science, Office of Basic Energy Sciences, and by the Division of Chemical Sciences, Geosciences, and Biosciences of the U.S. Department of Energy at LBNL under Contract No. DE-AC02-05CH11231.

June 7, 2013, 10:54 AM – June 7, 2013, 11:06 AM

Authors

F.P. Sturm
- Lawrence Berkeley National Laboratory
B. Gaire
- Lawrence Berkeley National Laboratory
I. Bocharova
- Lawrence Berkeley National Laboratory
P. Braun
- Lawrence Berkeley National Laboratory
A. Belkacem
- Lawrence Berkeley National Laboratory
Th. Weber
- Lawrence Berkeley National Laboratory
W. Cao
- Kansas State University
I. Ben-Itzhak
- Kansas State University
J.B. Williams
- Auburn University
A. Landers
- Auburn University
R. Doerner
- Goethe Universitaet Frankfurt