Correlation between diffuseness and EMC effect of nuclei with A≤12

摘要: Within the double \textit{Q}$^{2}$-rescaling model and the T. D. Lee's soliton bag model, by taking into account the local nucleon density distribution, the EMC effect of the nuclei with \textit{A}$\geq 12$ influenced by the nuclear diffuseness is explored. It is shown that the slope of EMC ratio for each nucleus is weakened with the increase of the diffuseness parameter. It implies that the weaker the surface binding in a nucleus, the less pronounced its EMC effect. Furthermore, we find that it is not enough to only adjust the diffusion parameter to reproduce the experimental EMC ratios and the corresponding slopes simultaneously, which indicates that other nuclear medium effects should be taken into account. Then, with the experimental EMC ratios, the relatively optimal diffusion parameter of each nucleus is determined. It is found that the determined diffusion parameter of each nucleus is larger than the commonly used value (0.54 fm) except for $^{12}$C. To test the accuracy of the determined diffusion parameters of these nuclei, the corresponding average binding energies are extracted. We find that the extracted binding energies of most nuclei are in good agreement with the corresponding experimental data. Finally, the correlation between the EMC effect of $^{208}$Pb and its neutron skin thickness is discussed briefly.