Unveiling Doppler effects and charge phenomena in the elastic scattering of keV electrons on polystyrene
- Authors
- Type
- Published Article
- Journal
- Physica Scripta
- Publisher
- IOP Publishing
- Publication Date
- Oct 22, 2024
- Volume
- 99
- Issue
- 11
- Identifiers
- DOI: 10.1088/1402-4896/ad8603
- Source
- ioppublishing
- Keywords
- Disciplines
- License
- Unknown
Abstract
Recoil energy is a phenomenon that is observed in various spectroscopy experiments. Elastic Peak Electron Spectroscopy (also known as Electron Compton Scattering) studies the shape of the elastic peak resulting from electron scattering from solid targets. As the atoms move around their equilibrium position, they scatter the distribution of recoil energies, resulting in a broadening of the elastic peak known as Doppler broadening. Since the hydrogen peak has the largest recoil energy shifts due to the low mass of hydrogen, Elastic Peak Electron Spectroscopy is ideal for the detection of hydrogen. The most important aspects of this method for the detection of hydrogen include electron-induced hydrogen desorption and, in dielectric materials, charge phenomena. This work focuses on the elastic peak spectra of keV electrons impinging on polystyrene, with particular interest in the changes in line shape due to the Doppler effect and surface charge during electron irradiation.