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The ejection of triatomic molecular hydrogen ions h-3(+) produced by the interaction of benzene molecules with ultrafast laser pulses

Kaziannis, S. and Liontos, I. and Karras, G. and Corsi, C. and Bellini, M. and Kosmidis, C. (2009) The ejection of triatomic molecular hydrogen ions h-3(+) produced by the interaction of benzene molecules with ultrafast laser pulses. Journal of Chemical Physics, 131 (14). ISSN 0021-9606

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Abstract

The ejection process of triatomic molecular hydrogen ions produced by the interaction of benzene with ultrafast laser pulses of moderate strong intensity ( ∼ 1014 W/cm2) is studied by means of TOF mass spectrometry. The H3+ formation can only take place through the rupture of two C-H bonds and the migration of hydrogen atoms within the molecular structure. The H3+ fragments are released with high kinetic energy (typically 2-8 eV) and at laser intensities ≥ 1014 W/cm2, well above that required for the double ionization of benzene, suggesting that its formation is taking place within multiply charged parent ions. The relative ejection efficiency of H3+ molecular hydrogen ions with respect to the atomic ones is found to be strongly decreasing as a function of the laser intensity and pulse duration (67-25 fs). It is concluded that the H3+ formation is only feasible within parent molecular precursors of relatively low charged states and before significant elongation of their structure takes place, while the higher multiply charged molecular ions preferentially dissociate into H+ ions. The ejection of H2+ ions is also discussed in comparison to the production of H3+ and H+ ions. Finally, by recording the mass spectra of two deuterium label isotopes of benzene (1,2-C6H4D2, 1,4-C6H4D2) it is verified that the ejection efficiency of some molecular fragments, such as D2H+, DH+, is dependent on the specific position of hydrogen atoms in the molecular skeleton prior dissociation.

Item type: Article
ID code: 18926
Keywords: triatomic, molecular hydrogen, ions h-3(+), benzene molecules, ultrafast laser pulses, Optics. Light
Subjects: Science > Physics > Optics. Light
Department: Faculty of Science > Physics
Related URLs:
    Depositing user: Strathprints Administrator
    Date Deposited: 21 Jun 2010 10:16
    Last modified: 17 Jul 2013 01:23
    URI: http://strathprints.strath.ac.uk/id/eprint/18926

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