2014
DOI: 10.1002/rcm.6961
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Single and double ionization of the camphor molecule excited around the C 1s edge

Abstract: Our PEPIPICO spectrum clearly demonstrated the formation of doubly ionic dissociative species. From a slope analysis, we propose a secondary decay after a deferred charge separation mechanism in which, after a few steps, the camphor dication dissociates into C2 H3 (+) and C3 H5 (+) . This is the main relaxation route observed at 270 eV and 330 eV. The large energy difference between the mono and the dication (of the order of 258.2 kcal/mol) may explain the experimentally observed absence of stable dications in… Show more

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Cited by 10 publications
(10 citation statements)
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“…58,62 This is expected for C 1s edge photoionisation as the molecule can undergo double and triple ionisation by highly efficient secondary mechanisms like Auger decay, 3 leading to higher fragmentation as observed previously. 42 This is further confirmed by the presence of the observed fragments in photoelectron-photoion-photoion coincidences.…”
Section: Resultsmentioning
confidence: 58%
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“…58,62 This is expected for C 1s edge photoionisation as the molecule can undergo double and triple ionisation by highly efficient secondary mechanisms like Auger decay, 3 leading to higher fragmentation as observed previously. 42 This is further confirmed by the presence of the observed fragments in photoelectron-photoion-photoion coincidences.…”
Section: Resultsmentioning
confidence: 58%
“…36,59 In a previous PEPIPICO fragmentation study of camphor, photon energies of 270 eV and 330 eV were used for ionisation. 42 To gain a deeper understanding of the fragmentation dynamics of the molecule, we implemented the VMI-PEPIPICO technique at 292.4 eV (having the highest ion yield) for ion-VMI and 304.9 eV for electron-VMI (e-VMI) (where the VMI resolution (DE/E) is better at around 7%, as compared to low energy electrons produced by photons of energy 292.4 eV).…”
Section: Resultsmentioning
confidence: 99%
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“…Their flight directions can be observed experimentally as momentum distributions of the CH + 3 ions resulting from multiple ionization followed by Coulomb explosion of the molecule. 15,16 We assume that two-body dissociation events produce equal initial momenta for CH + 3 fragments at three different molecular sites. By normalizing the size of the Newton sphere to one, the momenta distributions are given by the position distributions of the CH 3 groups.…”
mentioning
confidence: 99%