Sebastian König
Published 2019-10-28Version 1
Light nuclei fall within a regime of universal physics governed by the fact that the two-nucleon scattering lengths are large compared to the typical nuclear interaction range set by one-pion exchange. This places nuclear physics near the so-called unitarity limit in which the scattering lengths are exactly infinite. Effective field theory provides a powerful theoretical framework to capture this separation of scales in a systematic way. It is shown here that the nuclear force can be constructed as a perturbative expansion around the unitarity limit and that this expansion has good convergence properties for both the binding energies of $A=3,4$ nuclei as well as for the radii of these states.
Comments: 14 pages, 3 figures. Prepared as contribution to the EPJA topical issue "The tower of effective (field) theories and the emergence of nuclear phenomena."
QCD sum rules for ρ, ω, φmeson-nucleon scattering lengths and the mass shifts in nuclear medium
Nuclear Physics Around the Unitarity Limit
Evolution of Efimov States
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