Recent developments in nuclear structure theory: an outlook on the muonic atom program

Abstract: The discovery of the proton-radius puzzle and the subsequent deuteron-radius puzzle is fueling an on-going debate on possible explanations for the difference in the observed radii obtained from muonic atoms and from electron-nucleus systems. Atomic nuclei have a complex internal structure that must be taken into account when analyzing experimental spectroscopic results. Ab initio nuclear structure theory provided the so far most precise estimates of important corrections to the Lamb shift in muonic atoms and i… Show more

“…Nevertheless, we do include it and provide an update of its value for A = 2, 3 and new values for A = 4 in this review. The correction to the magnetic-dipole one-body impulse approximation operator appears at 2nd order in the chiral expansion and enhance the strength of δ M by about 10% for A = 2, see, e.g., [66]. As we carried out our calculations of δ (0) M in the impulse approximation for all light muonic atoms, an uncertainty of 10% is assigned to δ (0) M , which is negligible with respect to other uncertainty sources.…”

Ab initio calculation of nuclear-structure corrections in muonic atoms

“…Nevertheless, we do include it and provide an update of its value for A = 2, 3 and new values for A = 4 in this review. The correction to the magnetic-dipole one-body impulse approximation operator appears at 2nd order in the chiral expansion and enhance the strength of δ M by about 10% for A = 2, see, e.g., [66]. As we carried out our calculations of δ (0) M in the impulse approximation for all light muonic atoms, an uncertainty of 10% is assigned to δ (0) M , which is negligible with respect to other uncertainty sources.…”

Ab initio calculation of nuclear-structure corrections in muonic atoms