Energy distribution analysis of the wavepacket simulations of CH4 and
  CD4 scattering

A.P.J. Jansen; Au; Au; Beck; Beckerle; Bengaard; Burghgraef; Burghgraef; Burghgraef; Burghgraef; Burghgraef; Capellini; Carré; Ceyer; Ehara; Fang; Fang; Fang; Gerdts; Gray; Hammerich; Hamza; Holmbad; Holmbad; Jansen; Jansen; Juurlink; Jäckle; Jäckle; Jäckle; Jäckle; Kratzer; Larsen; Lee; Lee; Lee; Liao; Light; Liu; Luntz; Luntz; Luntz; Luntz; Manthe; Manthe; Manthe; Manthe; Matzkies; Matzkies; Milot; R. Milot; Rettner; Rettner; Schoofs; Seets; Seets; Valden; Valden; Van Hook; Verhoef; Verhoef; Verhoef; Walker; Wilson; Worth; Worth; Yang

research

Energy distribution analysis of the wavepacket simulations of CH4 and CD4 scattering

Authors: A.P.J. Jansen
Au
Au
Beck
Beckerle
Bengaard
Burghgraef
Burghgraef
Burghgraef
Burghgraef
Burghgraef
Capellini
Carré
Ceyer
Ehara
Fang
Fang
Fang
Gerdts
Gray
Hammerich
Hamza
Holmbad
Holmbad
Jansen
Jansen
Juurlink
Jäckle
Jäckle
Jäckle
Jäckle
Kratzer
Larsen
Lee
Lee
Lee
Liao
Light
Liu
Luntz
Luntz
Luntz
Luntz
Manthe
Manthe
Manthe
Manthe
Matzkies
Matzkies
Milot
R. Milot
Rettner
Rettner
Schoofs
Seets
Seets
Valden
Valden
Van Hook
Verhoef
Verhoef
Verhoef
Walker
Wilson
Worth
Worth
Yang
Publication date: 1 January 2000
Publisher: 'Elsevier BV'
Doi

Abstract

The isotope effect in the scattering of methane is studied by wavepacket simulations of oriented CH4 and CD4 molecules from a flat surface including all nine internal vibrations. At a translational energy up to 96 kJ/mol we find that the scattering is still predominantly elastic, but less so for CD4. Energy distribution analysis of the kinetic energy per mode and the potential energy surface terms, when the molecule hits the surface, are used in combination with vibrational excitations and the corresponding deformation. They indicate that the orientation with three bonds pointing towards the surface is mostly responsible for the isotope effect in the methane dissociation.Comment: 20 pages LaTeX, 1 figure (eps), to be published in Surf. Sc