Issue 2, 2024, Issue in Progress

Positron scattering from structurally related biomolecules

Abstract

We report the integral elastic, momentum transfer, and inelastic (positronium formation and ionisation) cross sections for positron scattering from structurally related molecules. The molecules chosen for the current investigation are formamide, formylphosphine, formic acid, N-methylformamide, acetone, acetic acid, and formaldehyde. The cross sections were calculated using the optical potential approach and the complex scattering potential-ionisation contribution method for impact energies between 1 and 5 keV. A sizable repository of data is now available for positron scattering from various atoms and molecules; however, data on the impact of positrons on current targets is still scarce and fragmented. While most cross sections are the first of their kind, we analyze our total cross sections (TCSs) with the previous literature available, which has become attractive to researchers trying to model the tracks of charged particles in matter. TCSs have recently seen a resurgence in popularity thanks to their utility in specifying the mean-free path between the collisions of such simulations. We find good qualitative convergence between experimental and theoretical results below and above the positronium formation threshold. However, around the threshold region, a significant discrepancy is encountered, which can be accounted for due to the experiment's lack of forward angle scattering effect discrimination. This level of agreement evolves to become quantitative at intermediate and higher energies.

Graphical abstract: Positron scattering from structurally related biomolecules

Supplementary files

Article information

Article type
Paper
Submitted
13 Sep 2023
Accepted
19 Dec 2023
First published
03 Jan 2024
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2024,14, 1397-1406

Positron scattering from structurally related biomolecules

S. Mahla and B. Antony, RSC Adv., 2024, 14, 1397 DOI: 10.1039/D3RA06227A

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