Abstract
A relativistic microscopic optical model potential, named CTOM , for nucleon-nucleus scattering is investigated in the framework of Dirac-Brueckner-Hartree-Fock approach. The microscopic feature of CTOM is guaranteed through rigorously adopting the isospin dependent DBHF calculation within the subtracted T matrix scheme. In order to verify its prediction power, a global study n , p + A scattering are carried out. The predicted scattering observables coincide with experimental data within a good accuracy over a broad range of targets and a large region of energies only with two free items, namely the free-range factor t in the applied improved local density approximation and minor adjustments of the scalar and vector potentials in the low-density region. In addition, to estimate the uncertainty of the theoretical results, the deterministic simple least square approach is preliminarily employed to derive the covariance of predicted angular distributions, which is also briefly contained in this paper.
Highlights
More and more nuclear data for the unstable nuclei are required in the current advanced nuclear applications
A relativistic microscopic optical model potential, named CTOM, for nucleon-nucleus scattering is investigated in the framework of Dirac-Brueckner-Hartree-Fock approach
The microscopic feature of CTOM is guaranteed through rigorously adopting the isospin dependent DBHF calculation within the subtracted T matrix scheme
Summary
More and more nuclear data for the unstable nuclei are required in the current advanced nuclear applications. The potentials derived from the selfenergies in nuclear matter have been successfully applied in the nuclear data study such as the JLM model in a Bruckner Hartree-Fock (BHF) approach by Mahaux et al [2]. 2, the theoretical scheme of CTOM is briefly introduced. The scattering reaction are calculated by CTOM in Sect. Two free factors are available in CTOM, which indicate the free-range factor t in the applied improved local density approximation (ILDA) and minor adjustments of the scalar and vector potentials in the lowdensity region. 3. In addition, we attempt to evaluate the predicted uncertainties of the theoretical results, which are briefly introduced in Sect.
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