Alexandra Loupas scite author profile

We present a comprehensive study of resonance formation in electron collisions with thiophene. Detailed calculations have been performed using the ab initio R-matrix method. Absolute differential cross sections for electron impact excitation up to 18 eV and for two scattering angles, 90 and 135°, have been measured. Agreement between the calculated and measured experimental cross sections is very good. Three shape resonances previously described, two of π* character and one σ*, as well as a number of resonances of core-excited or mixed character are identified and characterized in the calculations. The measured cross sections provide experimental confirmation for a number of the core-excited resonances. The link between these resonances and prior DEA experiments is discussed.

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Resonances in low-energy electron scattering from para-benzoquinone

Loupas

Gorfinkiel

2017

Phys. Chem. Chem. Phys.

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We present detailed ab initio scattering calculations for electron collisions with parabenzoquinone. The R-Matrix method has been used to study elastic and electronically inelastic scattering. We have identified 26 resonances of Feshbach, core-excited shape and mixed character between 0 and 8 eV. Agreement of our resonance spectrum with existing literature is discussed, in particular that of the low-lying resonances that participate in the photodetachment process. Integral elastic and total inelastic cross sections are also presented.

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Cross sections for electron scattering from thiophene for a broad energy range

Loupas

Lozano

Blanco

et al. 2018

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We present cross sections for elastic and inelastic electron scattering from thiophene calculated in the energy range 0.1-1000 eV. The R-matrix and independent atom representation-screening-corrected additivity rule (IAM-SCAR) methods were used for low-energy and intermediate and high scattering energies, respectively. The results provide a consistent picture of the scattering process in the whole energy range. The effect of including an interference term in the IAM-SCAR approach is considered. Agreement with prior theoretical results is also discussed.

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