Nuclear beta decays provide a unique avenue for testing the electroweak part of the Standard Model (SM) through precision measurements. One probing mechanism for new physics is the unitarity test of the Cabibbo-Kobayashi-Maskawa quark mixing matrix, which up to until recently has followed the SM-predicted unitarity. However, recent radiative correction calculation results, used for the determination of the biggest matrix element, Vud, now generates a three standards deviation with unitarity, leading to renewed interest on the experimental and theoretical fronts. As such, in the past few years, a research program aimed at solidifying the determination of Vud from superallowed beta-decay transitions between mirror nuclei was initiated using radioactive ion beams from the Twin Solenoid (TwinSol) separator at the Nuclear Science Laboratory of the University of Notre Dame. The first part of the program is centered on precision half-life measurements and the second part aims at measuring the beta-neutrino angular correlation parameter a-beta-nu. Recent half-life measurements and the current development status of the St.Benedict ion trapping system that will measure a-beta-nu in many transitions between mirror nuclei for the first time will be presented.
