2015
DOI: 10.1088/1054-660x/26/1/016001
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Multiple photon excitation of adsorbed toluene by KrF laser

Abstract: KrF laser-induced multiple photon dissociation and desorption of toluene condensed on fused silica have been studied using mass spectrometry. The three-photon (2-1) excitation of the molecule including its transition connected with laser stimulated emission was found to control this dissociation in all coverages as well as the ejection of single toluene molecules from the multilayer. Fragments were also produced in two successive steps of two-photon excitation that caused the release of toluene clusters from t… Show more

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Cited by 5 publications
(2 citation statements)
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“…This gives rise to desorption of individual molecules and/or molecular clusters, while desorption of molecules from a single-layer coating occurs in accordance with the theoretical mechanism. The subsequent photodissociation of the desorbed particles is analogous to the gas-phase process [22]. Under the conditions of the ISM, multi-layer coatings consisting of many molecular components predominate.…”
Section: Characteristics Of Photodissociation Of Aromatic Hydrocarbon...mentioning
confidence: 99%
See 1 more Smart Citation
“…This gives rise to desorption of individual molecules and/or molecular clusters, while desorption of molecules from a single-layer coating occurs in accordance with the theoretical mechanism. The subsequent photodissociation of the desorbed particles is analogous to the gas-phase process [22]. Under the conditions of the ISM, multi-layer coatings consisting of many molecular components predominate.…”
Section: Characteristics Of Photodissociation Of Aromatic Hydrocarbon...mentioning
confidence: 99%
“…In our current study, we have considered another factor influencing the photostability of a number of adsorbed molecules. A series of laboratory experiments on the photostability of adsorbed molecules of the simplest aromatic hydrocarbons, such as benzene [20], chlorobenzene [21], and toluene [22] have been carried out in the Chemistry Department of Moscow State University using powerful UV laser radiation. It was established in these experiments that adsorbed molecules are much more stable than their gas-phase analogs, due to the transfer of the excess internal energy of the photoexcited molecule to the substrate via rapid intramolecular relaxation.…”
mentioning
confidence: 99%