Ionization and Fragmentation of Methane Induced by 40 eV to 480 eV Synchrotron Radiation: From Valence to Beyond Core Electron Ionization

Ionization and Fragmentation of Methane Induced by 40 eV to 480 eV Synchrotron Radiation: From Valence to Beyond Core Electron Ionization

Photoionization and fragmentation of gaseous methane induced by tunable synchrotron radiation were investigated in a wide energy range, from 40 eV up to 480 eV. We report electron-ion coincidence experiments by measuring the relative partial-ion yields and precursor-specific relative yields for indi...

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Veröffentlicht in:The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment, & general theory Molecules, spectroscopy, kinetics, environment, & general theory, 2013-01, Vol.117 (1), p.56-66
Hauptverfasser: Wolff, W, Sigaud, L, Montenegro, E. C, de Jesus, V. L. B, Cavasso Filho, R. L, Pilling, S, Santos, A. C. F
Format: Artikel
Sprache:eng
Schlagworte:
Atomic and molecular physics
Autoionization, photoionization, and photodetachment
Bonding
Electron impact
Exact sciences and technology
Fragmentation
Ionization
Methane
Molecular properties and interactions with photons
Photon interactions with molecules
Photons
Physical chemistry
Physics
Synchrotron radiation
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Zusammenfassung:Photoionization and fragmentation of gaseous methane induced by tunable synchrotron radiation were investigated in a wide energy range, from 40 eV up to 480 eV. We report electron-ion coincidence experiments by measuring the relative partial-ion yields and precursor-specific relative yields for individual fragment ions and for ion fragment pairs as a function of photon energy. The fragmentation patterns are discussed with emphasis on the transition behavior of the bond breaking reactions and of the hydrogen rearrangements from valence to core electron ionization. Below the C 1s threshold, a comparison between photon induced dissociation and electron impact data showed that the ionic fragments formation depends for both projectiles on the same final electronic state reached upon ionization.
ISSN:1089-5639
1520-5215
DOI:10.1021/jp309187d