How Complex can be the Unimolecular Decomposition of a Simple Molecule? The Case of Acetylene. An Electron Impact and PIPECO Investigation

Locht, Robert; Servais, Christian

doi:10.1524/zpch.1996.195.part_1_2.153

Cited by 7 publications

(4 citation statements)

References 43 publications

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“…Locht and co-workers − employ a dissociative electron ionization method in which the kinetic energies of the product ions are measured using retarding potential analysis. This allows extrapolation of ion appearance energies to zero ion kinetic energy, correcting for cases where a barrier to dissociation causes products to be formed with excess translational energy.…”

Section: Electron Ionization Threshold Methodsmentioning

confidence: 99%

Experimental Techniques in Gas-Phase Ion Thermochemistry

2001

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Section: Electron Ionization Threshold Methodsmentioning

confidence: 99%

Experimental Techniques in Gas-Phase Ion Thermochemistry

2001

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“…The He(I) spectra have been obtained with a helium discharge lamp, giving a resonance line at 21.21 eV. The details of this spectrometer, designed for photoion-photoelectron coincidence spectroscopy, have been given elsewhere [10]. This is based on a Lindautype electron energy analyzer.…”

Section: Methodsmentioning

confidence: 99%

Photoelectron spectroscopy of vinylbromide and intramolecular dynamics of the ionic B̃ state

et al. 2000

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In this paper, we report the He(I) photoelectron spectrum (PES) and the threshold-photoelectron (TPES) spectrum of C 2 H 3 Br. The fine structure observed in the first two ionic states in the He(I) spectrum is assigned to progressions belonging partially to previously unobserved vibrational normal modes. The TPES has been measured between 9.0 and 25.0 eV, and the photon energy range of 9.8-12.0 eV has been investigated in more detail. Extensive calculations with the GAUSSIAN set of programs have been performed to help in the assignment of the observed features. Furthermore, a conical intersection between the Ã 2 A" and the 2 A" states was found to take place along the C-Br stretching coordinate. Intramolecular dynamics of the 2 A" state, initially prepared in the Frank-Condon region, was probed by the Fourier transform of the spectrum. The 2 A" state is almost readily depleted, most probably due to a very effective internal conversion through the conical intersection.

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“…27 It consists of a Lindau-type electron energy analyzer and an ion retarding potential analyzer coupled with a quadrupole mass analyzer. The effusive gas sample is ionized by photons emitted from a rare gas discharge lamp.…”

Section: Methodsmentioning

confidence: 99%

Unimolecular dynamics from kinetic energy release distributions. V. How does the efficiency of phase space sampling vary with internal energy?

Hoxha

Locht

Lorquet

et al. 1999

The Journal of Chemical Physics

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A retarding field technique coupled with a quadrupole mass analyzer has been used to obtain the kinetic energy release distributions ͑KERDs͒ for the C 2 H 3 Br ϩ →͓C 2 H 3 ͔ ϩ ϩBr dissociation as a function of internal energy. The KERDs obtained by dissociative photoionization using the He͑I͒, Ne͑I͒, and Ar͑II͒ resonance lines were analyzed by the maximum entropy method and were found to be well described by introducing a single dynamical constraint, namely the relative translational momentum of the fragments. Ab initio calculations reveal the highly fluxional character of the C 2 H 3 ϩ ion. As the energy increases, several vibrational modes are converted in turn into large-amplitude motions. Our main result is that, upon increasing internal energy, the fraction of phase space sampled by the pair of dissociating fragments is shown to first decrease, pass through a shallow minimum around 75%, and then increase again, reaching almost 100% at high internal energies ͑8 eV͒. This behavior at high internal energies is interpreted as resulting from the conjugated effect of intramolecular vibrational redistribution ͑IVR͒ and radiationless transitions among potential energy surfaces. Our findings are consistent with the coincidence data of Miller and Baer, reanalyzed here, and with the KERD of the metastable dissociation.

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How Complex can be the Unimolecular Decomposition of a Simple Molecule? The Case of Acetylene. An Electron Impact and PIPECO Investigation

Cited by 7 publications

References 43 publications

Experimental Techniques in Gas-Phase Ion Thermochemistry

Experimental Techniques in Gas-Phase Ion Thermochemistry

Photoelectron spectroscopy of vinylbromide and intramolecular dynamics of the ionic B̃ state

Unimolecular dynamics from kinetic energy release distributions. V. How does the efficiency of phase space sampling vary with internal energy?

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