Unconventional superconductivity in weakly correlated, non-centrosymmetric Mo3Al2C

Abstract

Electrical resistivity, specific heat and NMR measurements classify non-centrosymmetric Mo3Al2C (β-Mn type, space group P4132) as a strong-coupled superconductor with Tc = 9~K deviating notably from BCS-like behaviour. The absence of a Hebbel-Slichter peak, a power law behaviour of the spin-lattice relaxation rate (from 27Al NMR), a T3 temperature dependence of the specific heat and a pressure enhanced Tc suggest unconventional superconductivity with a nodal structure of the superconducting gap. Relativistic DFT calculations reveal a splitting of degenerate electronic bands due to the asymmetric spin-orbit coupling, favouring a mix of spin-singlet and spin triplet components in the superconducting condensate, in absence of strong correlations among electrons.