Shell model calculations have been used to study the Coulomb C2, C4, and transverse E3, E5, and E7 form factors, including core-polarization effects in the 2+, 3-, 4+, 5- and 7- states of 29Mo. The computations were done using the two-body effective interaction n50j with the model space n50j. The Coulomb Valence Tassie Model (CVTM), which takes into consideration excitations outside of the model space, was used to assess core-polarization effects. The Skyrme potential was used to calculate the wave functions of the radial single-particle matrix elements, which gave a realistic description of nuclear interactions. Core-polarization effects are crucial for effectively improving the form factor calculations because they greatly increase agreement with the available experimental data.
Obaid, S. (2025). Electron Scattering form Factors of 92Mo in the Shell Model Framework: Incorporating Core-Polarization Effects. Kirkuk Journal of Science, 20(1), 35-42. doi: 10.32894/kujss.2025.157914.1196
MLA
Sarah M. Obaid. "Electron Scattering form Factors of 92Mo in the Shell Model Framework: Incorporating Core-Polarization Effects". Kirkuk Journal of Science, 20, 1, 2025, 35-42. doi: 10.32894/kujss.2025.157914.1196
HARVARD
Obaid, S. (2025). 'Electron Scattering form Factors of 92Mo in the Shell Model Framework: Incorporating Core-Polarization Effects', Kirkuk Journal of Science, 20(1), pp. 35-42. doi: 10.32894/kujss.2025.157914.1196
VANCOUVER
Obaid, S. Electron Scattering form Factors of 92Mo in the Shell Model Framework: Incorporating Core-Polarization Effects. Kirkuk Journal of Science, 2025; 20(1): 35-42. doi: 10.32894/kujss.2025.157914.1196
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