MgPd2Sb: A Mg-based Heusler-type superconductor

We report the synthesis and physical properties of a full Heusler compound, MgPd2Sb, which we found to show superconductivity below T-c = 2.2K. MgPd2Sb was obtained by a two-step solid-state reaction method and its purity and cubic crystal structure [Fm-3m, a = 6.4523(1) angstrom] were confirmed by powder x-ray diffraction. Normal and superconducting states were studied by electrical resistivity, magnetic susceptibility, and heat capacity measurements. The results show that MgPd2Sb is a type-II, weak coupling superconductor (lambda(e-p) = 0.53). The observed pressure dependence of T-c (Delta T-c/p approximate to -0.23K/GPa) is one of the strongest reported for a superconducting Heusler compound. The electronic structure, phonons, and electron-phonon coupling in MgPd2Sb were theoretically investigated. The obtained results are in agreement with the experiment, confirming the electron-phonon coupling mechanism of superconductivity. We compare the superconducting parameters to those of all reported Heusler-type superconductors.

Automated summary

We report the synthesis and physical properties of a full Heusler compound, MgPd2Sb, which exhibits superconductivity below Tc = 2.2K. The compound was found to be a type-II, weak coupling superconductor, with a strong pressure dependence of Tc (-0.23K/GPa). Theoretical investigations on electronic structure and electron-phonon coupling confirmed the superconducting mechanism.