M Horie scite author profile

M Horie

3Publications

42Citation Statements Received

172Citation Statements Given

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Sophia University

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Differential elastic electron scattering cross sections for CCl4 by 1.5–100 eV energy electron impact

Limão-Vieira

Horie

Kato

et al. 2011

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We report absolute elastic differential, integral and momentum transfer cross sections for electron interactions with CCl(4). The incident electron energy range is 1.5-100 eV, and the scattered electron angular range for the differential measurements varies from 15°-130°. The absolute scale of the differential cross section was set using the relative flow technique with helium as the reference species. Comparison with previous total cross sections shows good agreement. Atomic-like behaviour in this scattering system is shown here for the first time, and is further investigated by comparing the CCl(4) elastic cross sections to recent results on the halomethanes and atomic chlorine at higher impact energies [H. Kato, T. Asahina, H. Masui, M. Hoshino, H. Tanaka, H. Cho, O. Ingólfsson, F. Blanco, G. Garcia, S. J. Buckman, and M. J. Brunger, J. Chem. Phys. 132, 074309 (2010)].

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Cross sections for elastic scattering of electrons by CF3Cl, CF2Cl2, and CFCl3

Hoshino

Horie

Kato

et al. 2013

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Differential, integral, and momentum transfer cross sections have been determined for the elastic scattering of electrons from the molecules CF3Cl, CF2Cl2, and CFCl3.With the help of a crossed electron beam–molecular beam apparatus using the relative flow technique, the ratios of the elastic differential cross sections (DCSs) of CF3Cl, CF2Cl2, and CFCl3 to those of He were measured in the energy region from 1.5 to 100 eV and at scattering angles in the range 15° to 130°. From those ratios, the absolute DCSs were determined by utilizing the known DCS of He. For CF3Cl and CF2Cl2, at the common energies of measurement, we find generally good agreement with the results from the independent experiments of Mann and Linder [J. Phys. B 25, 1621 (1992)10.1088/0953-4075/25/7/030; Mann and Linder J. Phys. B 25, 1633 (1992)10.1088/0953-4075/25/7/031]. In addition, as a result of progressively substituting a Cl-atom, undulations in the angular distributions have been found to vary in a largely systematic manner in going from CF4 to CF3Cl to CF2Cl2 to CFCl3 and to CCl4. These observed features suggest that the elastic scattering process is, in an independently additive manner, dominated by the atomic-Cl atoms of the molecules. The present independent atom method calculation typically supports the experimental evidence, within the screened additivity rule formulation, for each species and for energies greater than about 10–20 eV. Integral elastic and momentum transfer cross sections were also derived from the measured DCSs, and are compared to the other available theoretical and experimental results. The elastic integral cross sections are also evaluated as a part of their contribution to the total cross section.

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Absolute differential and integral cross sections for CCl₄molecules by low energy electron impact

Horie

Kato

Hoshino

et al. 2012

J. Phys.: Conf. Ser.

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M Horie

Differential elastic electron scattering cross sections for CCl4 by 1.5–100 eV energy electron impact

Cross sections for elastic scattering of electrons by CF3Cl, CF2Cl2, and CFCl3

Absolute differential and integral cross sections for CCl₄molecules by low energy electron impact

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M Horie

Differential elastic electron scattering cross sections for CCl4 by 1.5–100 eV energy electron impact

Cross sections for elastic scattering of electrons by CF3Cl, CF2Cl2, and CFCl3

Absolute differential and integral cross sections for CCl4molecules by low energy electron impact

Contact Info

Product

Resources

About

Absolute differential and integral cross sections for CCl₄molecules by low energy electron impact