Nearside−Farside Analysis of Differential Cross Sections: Ar + HF Rotationally Inelastic Scattering
We report accurate coupled-channel quantum calculations of state-to-state and degeneracy-averaged differential cross sections for the rotationally inelastic collision Ar + HF(v i = 0, j i = 0, m i = 0) → Ar + HF(v f = 0, j f, m f), where v i, j i, m i and v f, j f, m f are initial and final vibratio...
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| Veröffentlicht in: | The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment, & general theory Molecules, spectroscopy, kinetics, environment, & general theory, 2001-03, Vol.105 (12), p.2792-2802 |
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| container_title | The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment, & general theory |
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| creator | Whiteley, T. W. J Noli, C Connor, J. N. L |
| description | We report accurate coupled-channel quantum calculations of state-to-state and degeneracy-averaged differential cross sections for the rotationally inelastic collision Ar + HF(v i = 0, j i = 0, m i = 0) → Ar + HF(v f = 0, j f, m f), where v i, j i, m i and v f, j f, m f are initial and final vibrational, rotational, and helicity quantum numbers, respectively. The calculations have been performed at eight collision energies and assume that HF is a rigid rotator. Structure in the differential cross sections is analyzed using the unrestricted version of nearside−farside (NF) theory. The NF theory decomposes the partial wave series (PWS) for the helicity scattering amplitude into two subamplitudes, one N, the other F. This is the first application of NF theory to an atom-heteronuclear molecule inelastic collision. It is demonstrated that the NF technique provides a clear physical interpretation of the angular scattering, except sometimes for scattering angles, θ, close to 0° and 180°. It is also shown that a resummation of the PWS can improve the usefulness of the NF technique, when the N and F cross sections possess small oscillations. The resummation procedure exploits recurrence properties of reduced rotation matrix elements to extract a factor (α + βcos θ)-1 from the PWS, where α and β are constants. Criteria for choosing α and β so as to obtain a physically meaningful NF decomposition are discussed. |
| doi_str_mv | 10.1021/jp0100046 |
| format | Article |
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W. J ; Noli, C ; Connor, J. N. L</creator><creatorcontrib>Whiteley, T. W. J ; Noli, C ; Connor, J. N. L</creatorcontrib><description>We report accurate coupled-channel quantum calculations of state-to-state and degeneracy-averaged differential cross sections for the rotationally inelastic collision Ar + HF(v i = 0, j i = 0, m i = 0) → Ar + HF(v f = 0, j f, m f), where v i, j i, m i and v f, j f, m f are initial and final vibrational, rotational, and helicity quantum numbers, respectively. The calculations have been performed at eight collision energies and assume that HF is a rigid rotator. Structure in the differential cross sections is analyzed using the unrestricted version of nearside−farside (NF) theory. The NF theory decomposes the partial wave series (PWS) for the helicity scattering amplitude into two subamplitudes, one N, the other F. This is the first application of NF theory to an atom-heteronuclear molecule inelastic collision. It is demonstrated that the NF technique provides a clear physical interpretation of the angular scattering, except sometimes for scattering angles, θ, close to 0° and 180°. It is also shown that a resummation of the PWS can improve the usefulness of the NF technique, when the N and F cross sections possess small oscillations. The resummation procedure exploits recurrence properties of reduced rotation matrix elements to extract a factor (α + βcos θ)-1 from the PWS, where α and β are constants. Criteria for choosing α and β so as to obtain a physically meaningful NF decomposition are discussed.</description><identifier>ISSN: 1089-5639</identifier><identifier>EISSN: 1520-5215</identifier><identifier>DOI: 10.1021/jp0100046</identifier><language>eng</language><publisher>American Chemical Society</publisher><ispartof>The journal of physical chemistry. 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The NF theory decomposes the partial wave series (PWS) for the helicity scattering amplitude into two subamplitudes, one N, the other F. This is the first application of NF theory to an atom-heteronuclear molecule inelastic collision. It is demonstrated that the NF technique provides a clear physical interpretation of the angular scattering, except sometimes for scattering angles, θ, close to 0° and 180°. It is also shown that a resummation of the PWS can improve the usefulness of the NF technique, when the N and F cross sections possess small oscillations. The resummation procedure exploits recurrence properties of reduced rotation matrix elements to extract a factor (α + βcos θ)-1 from the PWS, where α and β are constants. 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A</addtitle><date>2001-03-29</date><risdate>2001</risdate><volume>105</volume><issue>12</issue><spage>2792</spage><epage>2802</epage><pages>2792-2802</pages><issn>1089-5639</issn><eissn>1520-5215</eissn><abstract>We report accurate coupled-channel quantum calculations of state-to-state and degeneracy-averaged differential cross sections for the rotationally inelastic collision Ar + HF(v i = 0, j i = 0, m i = 0) → Ar + HF(v f = 0, j f, m f), where v i, j i, m i and v f, j f, m f are initial and final vibrational, rotational, and helicity quantum numbers, respectively. The calculations have been performed at eight collision energies and assume that HF is a rigid rotator. Structure in the differential cross sections is analyzed using the unrestricted version of nearside−farside (NF) theory. The NF theory decomposes the partial wave series (PWS) for the helicity scattering amplitude into two subamplitudes, one N, the other F. This is the first application of NF theory to an atom-heteronuclear molecule inelastic collision. It is demonstrated that the NF technique provides a clear physical interpretation of the angular scattering, except sometimes for scattering angles, θ, close to 0° and 180°. It is also shown that a resummation of the PWS can improve the usefulness of the NF technique, when the N and F cross sections possess small oscillations. The resummation procedure exploits recurrence properties of reduced rotation matrix elements to extract a factor (α + βcos θ)-1 from the PWS, where α and β are constants. Criteria for choosing α and β so as to obtain a physically meaningful NF decomposition are discussed.</abstract><pub>American Chemical Society</pub><doi>10.1021/jp0100046</doi><tpages>11</tpages></addata></record> |
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| title | Nearside−Farside Analysis of Differential Cross Sections: Ar + HF Rotationally Inelastic Scattering |
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