Superconductivity in TlBi2 with a large Kadowaki-Woods ratio

Abstract

In this article, the superconducting and normal state properties of TlBi2 with the AlB2-type structure were studied by the resistivity, magnetization and specific heat measurements. It was found that bulk superconductivity with TC = 6.2 K emerges in TlBi2, which is a phonon-mediated s-wave superconductor with a strong electron-phonon coupling (λep = 1.38) and a large superconducting gap (0/kBTC = 2.25). We found that the (T) exhibits an unusual T-linear dependence above 50 K, and can be well described by the Fermi-liquid theory below 20 K. Interestingly, its Kadowaki-Woods ratio A/γ2 [9.2×10-5 μ cm(mol K2/mJ)2] is unexpectedly one order of magnitude larger than that obtained in many heavy Fermi compounds, although the electron correlation is not so strong.