Antiproton-nucleon $\left(\overline{p}N\right)$ total cross sections are typically 3–4 times larger than the $NN$ ones at incident energies from a few hundreds to thousands MeV. We investigate antiproton-nucleus scattering as it could work as a probe of the nuclear structure giving the sensitivity differently from a proton probe. High-energy antiproton-nucleus reactions are reasonably described by the Glauber model with a minimal profile function that reproduces the $\overline{p}N$ and $\overline{p}\text{−}{}^{12}\mathrm{C}$ cross section data. In contrast to the proton-nucleus scattering, we find that the complete absorption occurs even beyond the nuclear radius due to the large $\overline{p}N$ elementary cross sections, which shows stronger sensitivity to the nuclear density distribution in the tail region. This sensitivity is quantified in the total reaction cross sections with various density profiles for future measurement including neutron-rich unstable nuclei.

• Received 12 May 2020
• Revised 21 August 2020
• Accepted 2 September 2020

DOI:https://doi.org/10.1103/PhysRevC.102.034614