Relativistic microscopic description of proton-nucleus scattering at energies u p to 200MeV

Rong Jian; Ma Zhong-Yu

doi:10.7498/aps.54.1528

Abstract
A new decomposition of the Dirac Brückner-Hartree-Fock (DBHF) G matrix is used to study the isospin-dependent relativistic microscopic optical potential (RMOP). The optical potential of finite nuclei can be obtained in the local den sity approximation. The energy dependence of proton-nucleus scattering for the optical potentials of finite nuclei is discussed. The differential cross section s and the resolution power in the p+4040Ca and p+208208Pb at Epp less than 200MeV are also calculated using the above RMOP. I t is found that the calculated results agree with the experimental results. It should be e mphasized that the ROMP obtained from DBHF G matrix without any free parameter s could well describe the proton elastic scattering. This RMOP can also be used for unstable nuclei. From the results of the Ca isotopes, it is found that the i sospin dependence is more important for the exotic nuclei.

Keywords:
relativistic microscopic optical potential /

Dirac Brückner-Hartree-Fock /

asymmetric nuclear matter /

local density approximation
Authors and contacts
Rong Jian¹,

Ma Zhong-Yu²

(1)中国原子能科学研究院，北京 102413; (2)中国原子能科学研究院，北京 102413;兰州重离子加速器国家实验室原子核理论中心，兰州 733000;中国科学院理论物理研究所，北京 100080
References

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Vol. 54, Issue 4 - 2005-02-20

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Relativistic microscopic description of proton-nucleus scattering at energies u p to 200MeV

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Relativistic microscopic description of proton-nucleus scattering at energies u p to 200MeV

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