High-energy molecular-frame photoelectron angular distributions: a molecular bond-length ruler.
/ Authors
Isabel Vela-Per'ez, F. Ota, A. Mhamdi, Y. Tamura, J. Rist, N. Melzer, Safak Uerken, G. Nalin, Nils Anders, D. You
and 17 more authors
M. Kircher, C. Janke, M. Waitz, F. Trinter, R. Guillemin, M. Piancastelli, Marc Simon, V. Davis, Joshua B Williams, Reinhard Dorner, K. Hatada, Kaoru Yamazaki, K. Fehre, P. V. Demekhin, Kiyoshi Ueda, M. Schoffler, T. Jahnke
/ Abstract
We present a study on molecular-frame photoelectron angular distributions (MFPADs) of small molecules using circularly polarized synchrotron light. We find that the main forward-scattering peaks of the MFPADs are slightly tilted with respect to the molecular axis. This tilt angle is directly connected to the molecular bond length by a simple, universal formula. We apply the derived formula to several examples of MFPADs of C 1s and O 1s photoelectrons of CO, which have been measured experimentally or obtained by means of ab initio modeling. In addition, we discuss the influence of the back-scattering contribution that is superimposed over the analyzed forward-scattering peak in the case of homo-nuclear diatomic molecules such as N2.
Journal: Physical chemistry chemical physics : PCCP
DOI: 10.1039/D2CP05942H