Bound state properties of four-body muonic quasi-atoms

Abstract

Total energies and various bound state properties are determined for the ground states in all six four-body muonic a+ b+ μ- e- quasi-atoms. These quasi-atoms contain two nuclei of the hydrogen isotopes p+, d+, t+, one negatively charged muon μ- and one electron e-. In general, each of the four-body muonic a+ b+ μ- e- quasi-atoms, where (a, b) = (p, d, t), can be considered as the regular one-electron (hydrogen) atom with the complex nucleus a+ b+ μ- which has a finite number of bound states. Furthermore, all properties of such quasi-nuclei a+ b+ μ- are determined from highly accurate computations performed for the three-body muonic ions a+ b+ μ- with the use of pure Coulomb interaction potentials between particles. It is shown that the bound state spectra of such quasi-atoms are similar to the spectrum of the regular hydrogen atoms, but there are a few important differences. Such differences can be used in future experiments to improve the overall accuracy of current evaluations of various properties of hydrogen-like systems, including the lowest-order relativistic and QED corrections.