On the superconducting nature of the Bi-II phase of elemental Bismuth

Abstract

The superconductivity in the Bi-II phase of elemental Bismuth (transition temperature T c3.92 K at pressure p 2.80 GPa) was studied experimentally by means of the muon-spin rotation as well as theoretically by using the Eliashberg theory in combination with Density Functional Theory calculations. Experiments reveal that Bi-II is a type-I superconductor with a zero temperature value of the thermodynamic critical field B c(0)31.97~mT. The Eliashberg theory approach provides a good agreement with the experimental T c and the temperature evolution of B c. The estimated value for the retardation (coupling) parameter k BT c/ω ln ≈ 0.07 (ω ln is the logarithmically averaged phonon frequency) suggests that Bi-II is an intermediately-coupled superconductor.