Author:
Abid Abdul Rahman,Bhattacharyya Surjendu,Venkatachalam Anbu Selvam,Pathak Shashank,Chen Keyu,Lam Huynh Van Sa,Borne Kurtis,Mishra Debadarshini,Bilodeau René C.,Dumitriu Ileana,Berrah Nora,Patanen Minna,Rolles Daniel
Abstract
AbstractWe have studied the fragmentation of the brominated cyclic hydrocarbons bromocyclo-propane, bromocyclo-butane, and bromocyclo-pentane upon Br(3d) and C(1s) inner-shell ionization using coincidence ion momentum imaging. We observe a substantial yield of CH3+ fragments, whose formation requires intramolecular hydrogen (or proton) migration, that increases with molecular size, which contrasts with prior observations of hydrogen migration in linear hydrocarbon molecules. Furthermore, by inspecting the fragment ion momentum correlations of three-body fragmentation channels, we conclude that CHx+ fragments (with x = 0, …, 3) with an increasing number of hydrogens are more likely to be produced via sequential fragmentation pathways. Overall trends in the molecular-size-dependence of the experimentally observed kinetic energy releases and fragment kinetic energies are explained with the help of classical Coulomb explosion simulations.
Funder
H2020 Marie Skłodowska-Curie Actions
U.S. Department of Energy
National Science Foundation
Academy of Finland
Publisher
Springer Science and Business Media LLC