Superfluid Density, Penetration Depth, Condensate Density

Abstract

Fascination with the concept of superconducting (SC) superfluid density s has persisted since the beginning of superconductivity theory, with numerical values of an actual density rarely provided. Over time s, addressed mostly in cuprate and following high temperature superconductors, has become synonymous with the normalized (unitless) inverse square of the magnetic penetration depth λL (the London expression, with superfluid density denoted ns), with interest primarily on its temperature T dependence that is expected to reflect the T-dependence of the SC gap amplitude and gap symmetry. In conventional superconductors, generalized expressions from the London penetration depth via Ginzburg-Landau theory, then to BCS theory provide updated pictures of the supercurrent density-vector potential relationship. The BCS value λband is distinct from any particle density, instead involving particle availability at the Fermi surface and Fermi velocity as the determining factors, thus providing a basis for a more fundamental theory and understanding of what is being probed in penetration depth studies. The number density of superconducting electrons Ns(T=0) -- the scalar SC condensate density -- is provided, first from a phenomenological estimate but then supported by BCS theory. A straightforward relation connecting Ns(0) to the density of dynamically transporting carriers in the normal state at Tc is obtained. Numerical values of relevant material parameters including λband and Ns are provided for a few conventional SCs.