Non-ionizing cross section of electron scattering on atoms in matter accounting for dynamical screening effect

N Medvedev and DI Zainutdinov and AE Volkov, JOURNAL OF APPLIED PHYSICS, 137, 015903 (2025).

DOI: 10.1063/5.0242080

We present a model of non-ionizing scattering of electrons on atomic ensemble in matter, applicable in a wide electron energy range from similar to eV up to relativistic ones. The approach based on the dynamic-structure factor formalism considers collective response of the atomic and electronic systems of a target. It accounts for dynamical screening of atomic nuclei in matter by valence (collective) and core- shell electrons during the scattering events, dependent on the incident electron velocity. The proposed formalism for the cross section enables us to describe in a unified manner the electron scattering on the ensemble of isolated atomic nuclei at high incident electron energies, reducing to the scattering on phonons with a decrease in the energy. Our model can be used, e.g., in transport Monte Carlo codes to describe the energy exchange between excited electrons and atomic ensemble in matter. An example of swift heavy ion track formation in quartz simulated with the proposed cross section shows reasonable agreement with the experiment validating the model.

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