Structural phases of elemental Gallium: universal relations in type-I superconductors

Abstract

The temperature dependent measurements of the thermodynamic critical field and the specific heat for the pressure stabilized Ga-II phase of elemental Gallium are presented. The discussion of these and other Ga phases data in the context of elemental and binary phonon-mediated type-I superconductors allowed to establish simple scaling relations between BCS quantities such as B c(0)/T cγ e and the specific heat jump at T c versus the coupling strength 2/k B T c [ and B c(0) are the zero-temperature values of the superconducting energy gap and the thermodynamic critical field, respectively, T c is the transition temperature, and γ e is the electronic specific heat]. The scaling relations can be analytically expressed by taking into account strong-coupling corrections to BCS theory. Such correlations can naturally explain the linear relation between B c(0) and T c, which holds for type-I superconducting materials.