Self-consistent Skyrme QRPA for use in axially-symmetric nuclei of arbitrary mass

Abstract

We describe a new implementation of the quasiparticle random phase approximation (QRPA) in axially-symmetric deformed nuclei with Skyrme and volume-pairing energy-density functionals. After using a variety of tests to demonstrate the accuracy of the code in 24,26Mg and 16O, we report the first fully self-consistent application of the Skyrme QRPA to a heavy deformed nucleus, calculating strength distributions for several Kpi in 172Yb. We present energy-weighted sums, properties of gamma-vibrational and low-energy Kpi=0+ states, and the complete isovector E1 strength function. The QRPA calculation reproduces the properties of the low-lying 2+ states as well or better than it typically does in spherical nuclei.