The Ground-state Inter-plane Superconducting Coherence Length of La$_{1.875}$Sr$_{0.125}$CuO$_4$ Measured by a "Xiometer"

Abstract: A long excitation coil piercing a superconducting (SC) ring is used to generate ever increasing persistent current in the ring, until the current destroys the order parameter. Given that the penetration depth $\lambda$ is known, this experiment measures, hypothetically, the coherence length $\xi$, hence the name "Xiometer". We examine various aspects of this theoretically driven hypothesis by testing niobium rings with different dimensions, and by comparing the results to the known values of $\xi$. We then apply the method to two La${1.875}$Sr${0.125}$CuO$4$ rings at $T \rightarrow 0$. In one, the current flows in the CuO$_2$ planes hence it is set by $\xi{ab}$. In the other, the current must cross planes and is determined by $\xi_{c}$. We find that $\xi_{c}=1.3 \pm 0.1$~nm, and $\xi_{ab}<2.3~$nm indicating that at low temperatures the Cooper pairs are three dimensional.