Anomalous gap ratio in anisotropic superconductors: aluminum under pressure

Abstract

Pressure dependence of the thermodynamic critical field Bc in elemental aluminum was studied by means of the muon-spin rotation/relaxation technique. Pressure enhances the deviation of Bc(T) from the parabolic behavior, expected for a typical type-I superconductor, thus suggesting the weakening of the gap ratio α= /kB Tc ( is the average value of the superconducting energy gap, Tc is the transition temperature and kB is the Boltzmann constant). With the pressure increase from 0.0 to 1.6 GPa, α decreases almost linearly from 1.73 to 1.67. Our results imply, therefore, that in elemental aluminum the gap ratio α is smaller than the weak-coupled BCS prediction αBCS1.764 and it is even further reduced under pressure.