2019
DOI: 10.1063/1.5096211
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Electron scattering from 1-butanol at intermediate impact energies: Total cross sections

Abstract: High-resolution infrared spectroscopy of jet cooled trans-deuteroxycarbonyl (trans-DOCO) radical

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Cited by 10 publications
(10 citation statements)
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“…Our elastic cross-section values for butan-1-ol (Figure 1) were on the higher side for lower energies (<10 eV) as compared to the experimental data of Khakoo et al [26], their calculated results and that of Gomes et al [27]. This may be inherent to our methodology and can be attributed to the fact that we considered inelastic channels open at the first excitation energy albeit there being no distinction between the various open channels.…”
Section: Elastic Cross-sectionmentioning
confidence: 47%
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“…Our elastic cross-section values for butan-1-ol (Figure 1) were on the higher side for lower energies (<10 eV) as compared to the experimental data of Khakoo et al [26], their calculated results and that of Gomes et al [27]. This may be inherent to our methodology and can be attributed to the fact that we considered inelastic channels open at the first excitation energy albeit there being no distinction between the various open channels.…”
Section: Elastic Cross-sectionmentioning
confidence: 47%
“…The experimental total cross-section (TCS) for butan-1-ol reported by Gomes et al [27] in the energy range 80-400 eV starts off higher than all theoretically calculated crosssections, including their own and falls of more rapidly approaching 400 eV. All theoretical calculations, more or less, show an identical trend in results, though differing in magnitude.…”
Section: Total Cross-sectionmentioning
confidence: 71%
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“…Because alcohols are also used as additions to fuels, their interaction with electrons in scattering processes is important for modeling alcohol combustion through a spark ignition within an engine. Figure 18 shows electron-scattering TCSs for homologous series of linear primary alcohols: methanol, ethanol, 1-propanol, and 1-butanol (C n H 2n+1 OH, n = 1-4), measured recently by Silva et al [118,119] and Gomes et al [120] at intermediate impact energies using the same apparatus; some previous experimental TCS results [121][122][123] are also included for comparison. At energies above 250 eV, TCS measurements of Silva et al for ethanol agree well with respect to the magnitude with earlier data of Sueoka et al [122], being distinctively higher at lower energies.…”
Section: Linear Primary Alcohols: Cmentioning
confidence: 99%
“…Based on TCS results for alcohol series (C n H 2n+1 OH, n = 1-4), Gomes et al [120] derived the formula which relates the intermediate-energy TCS of alcohol molecules to the respective electric dipole polarizability. The formula indicates the role of a spatial spread of a molecular charge cloud in the scattering process.…”
Section: Linear Primary Alcohols: Cmentioning
confidence: 99%