Proton single differential cross-section, electron energy loss and elastic mean free pathin ZrO2 and Al2O3

Many research studies the loss of ion energy in chemicals and materials, because this subject has a great interest for multiple applications in material science and atomic physics. Proton loses its energy when interacting with oxides such as Al2O3 and ZrO2. In the current work under the formalities...

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Bibliographic Details
Main Authors: Shakir, Ishraq Ahmed, Naser, Zainab Shakir
Format: Conference Proceeding
Language:English
Subjects:
Aluminum oxide
Angular distribution
Atomic physics
Cross-sections
Elastic scattering
Energy
Energy dissipation
Energy distribution
Extrusion
Insulation
Mathematical analysis
Parameter sensitivity
Protons
Spectrum analysis
Zirconium dioxide
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Summary:Many research studies the loss of ion energy in chemicals and materials, because this subject has a great interest for multiple applications in material science and atomic physics. Proton loses its energy when interacting with oxides such as Al2O3 and ZrO2. In the current work under the formalities of insulation, the calculations were performed by combination of Durde energy loss functions with a generalized oscillator to describe the electrons in the outer and inner cascades sequentially. Provides a realistic description of the electronic properties of each goal of this method. Comparable cross sections are compared fairly well with a wide range of proton energies with experimental data available. The non-free average path parameter (IMFP) is calculated because the most important in surface-sensitive quantitative spectral analysis (IMFP) can be determined as a average distance between an electron and a given energy between successive non-elastic collisions. Another parameter describes the angular distribution of the extruded electron. This parameter is known as the differential cross-section, thus obtaining the energy distribution of the electrons produced by each proton from the corresponding cross-section.
ISSN:0094-243X
1551-7616
DOI:10.1063/5.0000238