Open AccessElastic and Inelastic Electron-Nucleus Scattering Form Factors for Be9 Nucleus
Author(s) -
Hawar Muhamad Dlshad,
Aziz H. Fatah,
Adil Mohammed Hussain
Publication year - 2020
Publication title -
uhd journal of science and technology
Language(s) - English
Resource type - Journals
eISSN - 2521-4217
pISSN - 2521-4209
DOI - 10.21928/uhdjst.v4n2y2020.pp56-62
Subject(s) - coulomb , physics , atomic physics , electron , yukawa potential , elastic scattering , scattering , nucleus , quantum electrodynamics , nuclear physics , quantum mechanics , biology , microbiology and biotechnology
The computations of the elastic and inelastic Coulomb form factors for the electron-nucleus scattering of Beryllium nucleus Be9 have performed with Core Polarization (CP) effects including the realistic Michigan sum of Three Range Yukawa (M3Y) Interaction, and the other residual interaction which is Modified Surface Delta Interaction (MSDI). In addition to mean square root charge density and charge radii for the ground state. The perturbation theory was adopted to compute the Core Polarization by using the Harmonic Oscillators (HO) potential to calculate single-particle radial wave functions.
In the comparison between the theoretical calculations of Coulomb form factors by (MSDI) interaction, realistic (M3Y) interaction, and the experimental results that measured before, it noticed that the Coulomb form factors for the (M3Y) interaction gave a reasonable depiction of the measured data.