Analysis of parity-violating electron scattering on deformed nuclei

Parity-violating electron scattering (PVES) offers an important and model-independent method for probing the nuclear neutron density distributions. In this paper, a deformed PVES model is constructed, and detailed analyses of parity-violating asymmetry A₏ₕ are presented for ^208Pb and ^27Al. The impacts of the deformation of neutron and proton distributions (₍ and ₏) on A₏ₕ are revealed by the plane- and distorted-wave Born approximations, respectively. It is demonstrated that ₍ mainly affects the depth of the diffraction minima of A₏ₕ, while ₏ influences the width of the diffraction minima of A₏ₕ. Furthermore, we combine the deformed mean-field model and deformed PVES calculations to modify the linear relation between the neutron skin thickness R₍₏ and A₏ₕ that accommodates the correlation between the weak charge radius Rₖ and A₏ₕ. Based on the latest PVES experimental measurements, R₍₏ and Rₖ are extracted from the improved linear correlations. The studies in this paper provide new insights into determining ₍ and can serve as a useful guide for future PVES experiments.