Shailendra Singh scite author profile

The total and ionization cross sections for electron scattering by benzene, halobenzenes, toluene, aniline, and phenol are reported over a wide energy domain. The multi-scattering centre spherical complex optical potential method has been employed to find the total elastic and inelastic cross sections. The total ionization cross section is estimated from total inelastic cross section using the complex scattering potential-ionization contribution method. In the present article, the first theoretical calculations for electron impact total and ionization cross section have been performed for most of the targets having numerous practical applications. A reasonable agreement is obtained compared to existing experimental observations for all the targets reported here, especially for the total cross section.

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Study of inelastic channels by positron impact on simple molecules

Singh

Antony

2017

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The present work concentrates on the investigation of various inelastic channels such as positronium (Ps) formation, direct ionization, and total ionization by the positron impact for simple molecules in an extensive energy range (∼Ps formation threshold to 5 keV). The modified form of the well-known spherical complex optical potential formalism and the complex scattering potential-ionization contribution method are used for the calculations. Although only limited literature was available for the molecules studied in the present endeavor, in general, reasonable agreement is found with the existing data. A phenomenological technique developed recently is used in the present work to calculate the Ps formation cross section efficiently.

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Theoretical Formalism To Estimate the Positron Scattering Cross Section

et al. 2016

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A theoretical formalism is introduced in this article to calculate the total cross sections for positron scattering. This method incorporates positron-target interaction in the spherical complex optical potential formalism. The study of positron collision has been quite subtle until now. However, recently, it has emerged as an interesting area due to its role in atomic and molecular structure physics, astrophysics, and medicine. With the present method, the total cross sections for simple atoms C, N, and O and their diatomic molecules C2, N2, and O2 are obtained and compared with existing data. The total cross section obtained in the present work gives a more consistent shape and magnitude than existing theories. The characteristic dip below 10 eV is identified due to the positronium formation. The deviation of the present cross section with measurements at energies below 10 eV is attributed to the neglect of forward angle-discrimination effects in experiments, the inefficiency of additivity rule for molecules, empirical treatment of positronium formation, and the neglect of annihilation reactions. In spite of these deficiencies, the present results show consistent behavior and reasonable agreement with previous data, wherever available. Besides, this is the first computational model to report positron scattering cross sections over the energy range from 1 to 5000 eV.

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Positron scattering from simple molecules

Singh

Dutta

Naghma

et al. 2017

J. Phys. B: At. Mol. Opt. Phys.

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A modified version of spherical complex optical potential formalism is employed to calculate the positron scattering cross sections over a wide energy range from near positronium formation threshold to 5000 eV. In the present study, the interaction potential of the positron-target scattering system is developed under an optical potential framework for the calculation of positron scattering total cross sections for CH 4 , CO, CO 2 , H 2 , N 2 O and NO molecules. The results obtained are in good agreement with most of the available experimental and theoretical values in terms of its shape and magnitude. A characteristic increase in cross section is observed for all the molecules near the positronium formation threshold, which signifies the emergence of positronium formation along with other inelastic channels.

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