Experimental Verification of the Inertial Theorem

An experimental verification of the inertial theorem is presented involving two hyperfine states of a trapped Ytterbium ion. The theorem generates an analytical solution for non-adiabaticlly driven systems `accelerated' slowly, bridging the gap between the sudden and adiabatic limits. These solutions have shown to be stable to small deviations, both experimentally and theoretically. As a result, the inertial solutions pave the way to rapid quantum control of closed as well as open quantum systems. For large deviations from the inertial condition, the phase of the $SU(2)$ algebra solution remains accurate, involving inaccuracies dominated by an amplitude difference.