Electronic decay and fragmentation dynamics of iodomethane, multiply core-ionized by photoabsorption of intense XFEL pulses

K. Motomura; E. Kukk; S. Wada; K. Nagaya; H. Fukuzawa; S. Mondal; T. Tachibana; Y. Ito; R. Koga; T. Sakai; K. Matsunami; A. Rudenko; C. Nicolas; X. J. Liu; C. Miron; Y. Zhang; Y. H. Jiang; J. Chen; A. Mailam; D. Kim; K. Tono; Y. Inubushi; T. Hatsui; M. Yabashi; M. Yao; K. Ueda

Conference ProceedingsOPEN ACCESS

Electronic decay and fragmentation dynamics of iodomethane, multiply core-ionized by photoabsorption of intense XFEL pulses

Journal of Physics: Conference Series (2014) 488(SECTION 3)

DOI: 10.1088/1742-6596/488/3/032043

1Citations

12Readers

Abstract

We have studied charge migration and dissociation in iodine-substituted methane molecules using extremely intense and short 5.5 keV free electron laser pulses from the SACLA XFEL facility. Multiple core ionization down to I 2p subshells creates highly charged molecular states, the fragmentation of which was studied by ion momentum imaging multiparticle coincidence technique. We report experimental and modeling results on various dissociation pathways, fragment momentum correlations, and kinetic energy releases.

Cite

CITATION STYLE

APA

Motomura, K., Kukk, E., Wada, S., Nagaya, K., Fukuzawa, H., Mondal, S., … Ueda, K. (2014). Electronic decay and fragmentation dynamics of iodomethane, multiply core-ionized by photoabsorption of intense XFEL pulses. In Journal of Physics: Conference Series (Vol. 488). Institute of Physics Publishing. https://doi.org/10.1088/1742-6596/488/3/032043

Electronic decay and fragmentation dynamics of iodomethane, multiply core-ionized by photoabsorption of intense XFEL pulses

Abstract

Cite

Register to see more suggestions