STUDYING INELASTIC TRANSVERSE ELECTRON SCATTERING FORM FACTORS OF THE ISOSCALAR TRANSITIONS IN 10B NUCLEUS

Ban Al-qazaz

doi:10.24996/iraqijournalofscience.v53i3.12755

Authors

Ban Al-qazaz Department of Physics, College of Science for Women, University of Baghdad. Baghdad-IRAQ. https://orcid.org/0000-0002-4220-1543

DOI:

https://doi.org/10.24996/iraqijournalofscience.v53i3.12755

Keywords:

electron scattering and inelastic, ., electron scattering Nuclear structure electron scattering shell model, , Elastic and inelastic

Abstract

The inelastic transverse electron scattering form factors are studied for the four
isoscalar transitions for the states of 10B nucleus. These states are specified
by J T  =1+0 (0.718 MeV), 1 0 2
 (2.154 MeV), 2+0 (3.587 MeV) and 3 0 2
 (4.774
MeV). These form factors are analyzed in the framework of the harmonic oscillator
shell model.
The transverse form factors have been calculated in the framework of the multinucleon
configuration mixing shell model using the two-body interaction of Cohen
and Kurath (C-K) to generate the 1p-shell wave function. The core polarization (CP)
effects are included in the calculations through effective g-factors. A higher
configuration effect outside the 1p-shell model space enhances the form factors for
q-values and reasonably reproduces the data. The value of the size parameter (b) is
chosen to reproduce the root mean square charge radius. The present results are
compared with available experimental data and with that of other models.
PACS:21.60-n,21.60 Cs, 25.30Dh,27.20 th