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Inelastic Electron Scattering Form Factors for 13C with Core-Polarization Effects

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Inelastic electron scattering have been calculated for the longitudinal and transverse form factors for 13C nuclei. The zero-order calculations are based on the model space-wave functions of Cohen-Kurath (ck) interaction first and on the Millener (mp) interaction second in the frame work of shell model. The single-particle wave functions are those of Harmonic Oscillator (HO). Core-polarization effects are used in these calculations, where a core (4He) is assumed and the remaining particles are distributed over of 1p 1/2 and d1p 3/2 Orbits which form the model space. The effect of core-polarization is found very essential by using (ck) interaction more than (mp) interaction, the calculated results gives a good description of the data with adjustable parameters. The results have been calculated for the states: (Jπ = (1/2), T = 1/2)8.86 MeV, ((5/2), 1/2)5.77 MeV, ((3/2), 1/2)3.68 MeV, and ((3/2), 3/2)15.11 MeV.
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Keywords: ELECTRON SCATTERING (E, E´); INELASTIC FORM FACTORS; INELASTIC STATES OF (C-13); NUCLEAR REACTIONS; NUCLEAR STRUCTURE

Document Type: Research Article

Publication date: June 1, 2013

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  • Journal of Advanced Physics is an interdisciplinary peer-reviewed journal consolidating research activities in all experimental and theoretical aspects of advanced physics. The journal aims in publishing articles of novel and frontier physics that merit the attention and interest of the whole physics community. JAP publishes review articles, full research articles, short communications of important new scientific and technological findings in all latest research aspects of physics.
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