Chiral effective field theory calculations of weak transitions in light nuclei
G. B. King, Lorenzo Andreoli, Saori Pastore, M. Piarulli, R. Schiavilla, R. B. Wiringa, J. Carlson, Stefano Gandolfi
Abstract
Quantum Monte Carlo calculations of electroweak transitions are performed for $A\ensuremath{\le}10$ nuclei based upon two- and three-nucleon chiral interactions and the associated one- and two-body axial currents. Except for $\ensuremath{\beta}$ decay of ${}^{8}$He, ${}^{8}$Li, and ${}^{8}$B, two-body currents contribute less than 3%. The exceptional nuclei exhibit matrix elements suppressed in impulse approximation based on the leading order (GT) transition operator. For a given interaction, the two-body transition densities exhibit a universal behavior at short distance for all systems under study.
Topics & Concepts
PhysicsField (mathematics)Effective field theoryQuantum electrodynamicsField theory (psychology)Theoretical physicsParticle physicsMathematical physicsMathematicsPure mathematicsNuclear physics research studiesQuantum Chromodynamics and Particle InteractionsQuantum, superfluid, helium dynamics