LnPd2Sn (Ln=Sc, Y, Lu) class of Heusler alloys for topological superconductivity

Abstract

Based on the first-principles electronic structure calculations and the symmetry analysis, we predict that the topological superconductivity may occur on the surface of the LnPd2Sn (Ln=Sc, Y, Lu) class of Heusler alloys. The calculated electronic band structure and topological invariant demonstrate that the LnPd2Sn family is topologically nontrivial. The further slab calculations show that the nontrivial topological surface states of LnPd2Sn exist within the bulk band gap and meanwhile they cross the Fermi level. Considering that the LnPd2Sn class of compounds were all found experimentally to be superconducting at low temperature, the surface topological superconductivity is likely to be generated via the proximity effect. Thus the LnPd2Sn class of compounds shall be a promising platform for exploring novel topological superconductivity and handling Majorana zero modes.