The Fate of excited state of 4He

Abstract

We investigate the properties of the excited state of 4He, 4He*, within the framework of Efimov physics and its connection to the unitary point of the nuclear interaction. We explore two different approaches to track the trajectory of 4He* as it crosses the 3H+p threshold and potentially becomes a resonant state. The first approach involves an analytical continuation of the energy with respect to the Coulomb coupling, while the second approach introduces an artificial four-body force that it is gradually released. By utilizing Pad\'e approximants and extrapolation techniques, we estimate the energy and width of the resonance. Our results suggest a central energy value of ER=0.060(3) MeV and a width of /2=0.036(6) MeV using the Coulomb analysis, and ER=0.068(1) MeV and /2=0.007(5) MeV with the four-body force analysis. Interestingly, these results are consistent with calculations based on ab-initio nuclear interactions but differ from the accepted values of the 0+ resonance energy and width. This highlights the challenges in accurately determining the properties of resonant states in light nuclei and calls for further investigations and refinements in theoretical approaches.