Ab Initio Treatment of Collective Correlations and the Neutrinoless Double Beta Decay of $^{48}$Ca.

Working with Hamiltonians from chiral effective field theory, we develop a novel framework for arbitrary deformed medium-mass nuclei by combining the in-medium similarity renormalization group with the generator coordinate method, which we use to build collective correlations into reference states that are the basis for subsequent renormalization-group evolution. We use the generator coordinate method a second time to diagonalize the evolved Hamiltonian, and compute the double-beta matrix element that governs the neutrinoless double beta decay of $^{48}$Ca to $^{48}$Ti, which we find to have the value 0.61, smaller than the predictions of most phenomenological methods.