Cage effects and rotational hindrance in the surface scattering of large (N 2) n clusters

We present results from classical trajectory calculations of collisions of (N 2) n (64≤ n≤512) clusters with a graphite surface in order to deepen our understanding of energy transfer processes and cluster fragmentation dynamics. Translational and rotational distributions for the monomer products of...

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Published inInternational journal of mass spectrometry Vol. 220; no. 2; pp. 159 - 170
Main Authors Chaâbane, Nihed, Jundt, Gregor, Vach, Holger, Koch, Denise M, Peslherbe, Gilles H
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.10.2002
Subjects
Cluster size dependence
Cluster–surface interaction
Energy exchanges
Molecular dynamics simulations
Nitrogen clusters
Rotational hindrance
Translational temperature
Cluster–surface interaction
Nitrogen clusters
Energy exchanges
Translational temperature
Rotational hindrance
Cluster size dependence
Molecular dynamics simulations
Online AccessGet full text
ISSN1387-3806
1873-2798
DOI10.1016/S1387-3806(02)00690-5

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Abstract We present results from classical trajectory calculations of collisions of (N 2) n (64≤ n≤512) clusters with a graphite surface in order to deepen our understanding of energy transfer processes and cluster fragmentation dynamics. Translational and rotational distributions for the monomer products of evaporation are determined for incidence angles between 30 and 70°, at an incident velocity of 750±50 m s −1 and for two surface temperatures. Our molecular dynamics simulations, which employ a simple trapping/desorption model for describing the interactions between molecules and the surface, allow us to reproduce experimental results not only qualitatively, but also quantitatively. A detailed analysis of the scattering event shows that the monomer translational energy distributions can be well described by a single Boltzmann distribution, while the rotational distributions of scattered molecules are best represented by a sum of two distinct Boltzmann distributions. The two resulting rotational temperatures can be attributed to a significant cage effect occurring during the cluster–surface impact. As a result, monomers originating from the outskirts of the clusters evaporate rotationally hot, while monomers from the very interior of the cluster—which are subject to cage effects—tend to be rotationally colder. Absolute values of the rotational temperatures indicate that the hot monomers experience significant rotational hindrance when evaporating from their parent cluster.
AbstractList We present results from classical trajectory calculations of collisions of (N 2) n (64≤ n≤512) clusters with a graphite surface in order to deepen our understanding of energy transfer processes and cluster fragmentation dynamics. Translational and rotational distributions for the monomer products of evaporation are determined for incidence angles between 30 and 70°, at an incident velocity of 750±50 m s −1 and for two surface temperatures. Our molecular dynamics simulations, which employ a simple trapping/desorption model for describing the interactions between molecules and the surface, allow us to reproduce experimental results not only qualitatively, but also quantitatively. A detailed analysis of the scattering event shows that the monomer translational energy distributions can be well described by a single Boltzmann distribution, while the rotational distributions of scattered molecules are best represented by a sum of two distinct Boltzmann distributions. The two resulting rotational temperatures can be attributed to a significant cage effect occurring during the cluster–surface impact. As a result, monomers originating from the outskirts of the clusters evaporate rotationally hot, while monomers from the very interior of the cluster—which are subject to cage effects—tend to be rotationally colder. Absolute values of the rotational temperatures indicate that the hot monomers experience significant rotational hindrance when evaporating from their parent cluster.
Author Koch, Denise M
Vach, Holger
Chaâbane, Nihed
Jundt, Gregor
Peslherbe, Gilles H
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Issue 2
Keywords Cluster–surface interaction
Nitrogen clusters
Energy exchanges
Translational temperature
Rotational hindrance
Cluster size dependence
Molecular dynamics simulations
Language English
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Snippet We present results from classical trajectory calculations of collisions of (N 2) n (64≤ n≤512) clusters with a graphite surface in order to deepen our...
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SubjectTerms Cluster size dependence
Cluster–surface interaction
Energy exchanges
Molecular dynamics simulations
Nitrogen clusters
Rotational hindrance
Translational temperature
Title Cage effects and rotational hindrance in the surface scattering of large (N 2) n clusters
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