2009
DOI: 10.1016/j.nimb.2009.07.017
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Electron scattering from alkenes in the energy range 200–4500 eV

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Cited by 12 publications
(12 citation statements)
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“…Sueoka and Mori reported TCS for ethylene between 1 to 400 eV using retarding potential time of flight method. Nishimura and Tawara, Ariyasinghe and Powers, Szmtkowski et al and Wickramarachchi et al measured TCS for the incident energies 4–500 eV, 0.6–370 eV, 200–1400 eV and 200–4500 eV, respectively, in linear transmission experimental setup. In the theoretical front Lunt et al and Schneider et al used Complex Kohn variational calculations for TCS in the energy range 0–6 eV and 0–5.5 eV, respectively.…”
Section: Introductionmentioning
confidence: 99%
“…Sueoka and Mori reported TCS for ethylene between 1 to 400 eV using retarding potential time of flight method. Nishimura and Tawara, Ariyasinghe and Powers, Szmtkowski et al and Wickramarachchi et al measured TCS for the incident energies 4–500 eV, 0.6–370 eV, 200–1400 eV and 200–4500 eV, respectively, in linear transmission experimental setup. In the theoretical front Lunt et al and Schneider et al used Complex Kohn variational calculations for TCS in the energy range 0–6 eV and 0–5.5 eV, respectively.…”
Section: Introductionmentioning
confidence: 99%
“…All these data will be compared against the present results later in this paper. Finally, for completeness, we also note the experimental total cross section measurements for electron-C 2 H 4 scattering from Sueoka and Mori, 48 Szmytkowski et al, 49 and Wickramarachchi et al 50 While these works are perhaps not strictly relevant to the focus of this paper, total cross sections represent the sum of all the integral cross sections for the elastic and inelastic (including the ã 3 B 1u ) scattering processes and so therefore serve as a useful independent cross check for the validity of those data.…”
Section: Introductionmentioning
confidence: 99%
“…Molecular targets, and references in the text Baylor University, C2H4 (ethylene), C3H6 (propene), C4H8 (butene), C4H6 (1,3-butadiene) [144]; Waco, USA C2H2 (acetylene), C3H4 (propyne) [145] Gdańsk University HCOOH (formic acid) [86]; C4H4O (furan) [87]; C3H3NO (isoxazole) [90]; of Technology, C5H5N (pyridine) [107]; C5H10O (tetrahydropyran) [111]; Gdańsk, Poland (CH3)2CO (acetaldehyde) [116]; (CF3)2CO (hexafluoroacetone) [117]; X(CH3)4 (X=C,Si,Ge) [126]; SnCl4 [127]; C4H8 (1-butene, 2-methylpropene) [136]; C5H10 (1-pentene) [138]; C5H10 (2-methyl-2-butene), C6H12 (2,3-dimethyl-2-butene) [137]; C2H2 (acetylene), C4H6 (1-butyne) [139]; C4H6 (1,2-butadiene) [141]; C5H6 (2-methyl-1-buten-3-yne) [142]; C5H8 (2-methyl-1,3-butadiene) [143] Institute of Technology, N2 (nitrogen) [62]; O2 (oxygen) [71] Tokyo, Japan Instituto de Matemáticas N2 (nitrogen) [63]; CH2Cl2 (dichloromethane) [124] y Fisica Fundamental, C4H4S (thiophene) [88]; C5H4O2 (furfural) [89]; C4H8O (tetrahydrofuran) [94]; (CSIC), Madrid, Spain C6H6 (benzene) [98]; C6H5OH (phenol) [103]; C5H5N (pyridine) [105,106]; C4H4N2 (pyrimidine) [109]; C4H4N2 (pyrazine) [110]; C6H4O2 (para-benzoquinone) [112]; C4H3F7O (sevoflurane) […”
Section: Laboratorymentioning
confidence: 99%
“…Majority of recently measured total cross sections was obtained at low and low-intermediate energies. Wickramarachchi et al [144] measured electron-scattering TCSs for group of alkene molecules in the energy range from 200 to 4500 eV. Their experimental results were used as the basis for the development of an empirical expression for the energy variation of TCS for chain-like hydrocarbons with C-C single and C=C double bonds.…”
Section: High-intermediate Energiesmentioning
confidence: 99%
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