Testing the Wineland Criterion with Finite Statistics

The Wineland parameter aims at detecting metrologically useful entangled states, called spin-squeezed states, from expectations and variances of total angular momenta. Efficient strategies for estimating this parameter in practice have yet to be determined. We here formulate the question of whether a state is spin-squeezed according to the Wineland parameter as an hypothesis test and assess the relevance of experimental outcomes by deriving upper and lower bounds on the p-value. By applying our statistical test to data obtained in multiple experiments, we are unable to reject the hypothesis that non-spin squeezed states were measured with a p-value of 5% or less in most cases. We also find an explicit non-spin squeezed state according to the Wineland parameter reproducing most of the observed results with a p-value exceeding 5%. Our results provide a rigorous method to establish robust statistical evidence of spin squeezing from the Wineland parameter in future experiments, accounting for finite-size effects.