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在KMT理论框架下,应用微观的动量空间一级光学势,包括了库仑修正,自旋关联,NN振幅反对称,离壳效应,核子反冲和结合能转换,Lorentz不变的角变换.在整个中能区域系统地计算了质子-12C弹性散射微分截面和自旋观测量,并与实验数据及Glauber理论框架下或已有的其他理论计算结果做了比较,其结果显示,在200—1000MeV,该理论与实验结论符合程度较好.
In the framework of KMT theory, the first order optical potential in the momentum space is applied, which includes the coulomb correction, spin correlation, NN amplitude antisymmetry, shell effect, nuclear recoil and binding energy conversion, and Lorentz invariant angular transformation. The differential cross sections and spin observations of proton -12C elastic scattering were systematically calculated for the entire Zhongneng area and compared with the experimental data and other theoretical calculations already under the Glauber theory framework. The results show that at 200-1000 MeV , This theory is in good agreement with the experimental conclusion.