Reconciling light nuclei and nuclear matter: relativistic ab\ initio calculations

Abstract

It has been a long-standing challenge to accurately predict the properties of light nuclei and nuclear matter simultaneously in nuclear ab\ initio calculations. In this Letter, we develop the relativistic quantum Monte Carlo methods for the nuclear ab\ initio problem, and calculate the ground-state energies of A≤4 nuclei using the two-nucleon Bonn force with an unprecedented high accuracy. For A=3,4 nuclei, the present relativistic results significantly outperforms the nonrelativistic results with only two-nucleon forces. Combining the present results for light nuclei and the previous results for nuclear matter with the same Bonn force, a correlation between the properties of light A≤4 nuclei and the nuclear saturation is revealed, and both systems are well described simultaneously, even without introducing three-nucleon forces. This provides a quantitative understanding of the connection between the light nuclei and nuclear matter saturation properties, which has been an outstanding problem in nuclear ab\ initio calculations for decades.

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