London penetration depth at zero temperature and near superconducting transition

Abstract

A simple relation is established between the zero-T penetration depth λ (0) and the slope of λ-2(T) near Tc, similar to Helfand-Werthamer's relation for Hc2(0) and the slope of Hc2(T) at Tc for the isotropic s-wave case with non-magnetic scattering.HW When the scattering parameter = v/2π Tc (v is the Fermi velocity and is the mean-free path) varies from 1 to 10, the coefficient of proportionality between λ-2(0) and Tc (dλ-2/dT)Tc changes from 0.43 to 0.38. Combining this relation with the Rutgers thermodynamic identity, one can express λ (0) in terms of the slope (dHc2/dT)Tc and the density of states.