Theoretical Study of Screening Dependence of Aluminium Doped MgB2

Abstract

The screening dependence of superconducting state parameters (λ, μ*, Tc, α and N0V) of six alloys of aluminium doped MgB2 systems are studied in the BCS–Eliashberg–McMillan framework by employing five forms of dielectric screening function, viz. random phase approximation (RPA), Harrison, Geldart and Vosko (GV), Hubbard and Overhauser in conjunction with Ashcroft’s potential. It is observed that electron-phonon coupling strength λ and Coulomb pseudopotential μ* are quite sensitive to the form of dielectric screening, whereas transition temperature Tc, isotope effect exponent α and effective interaction strength N0V show weak dependence on the form of dielectric screening function. It is found that the RPA form of dielectric screening function yields the best results for transition temperature Tc for all alloys of the Mg-Al-B system. The results obtained using GV screening are much higher than the experimental results. This shows that all the four dielectric screenings used here almost describe superconductivity in all the alloys of the Mg-Al-B system, but the GV screening is not suitable for such an alloy system.