A new quasi-one-dimensional superconductor parent compound NaMn6Bi5 with lower antiferromagnetic transition temperatures

Abstract

Mn-based superconductor is rare and recently reported in quasi-one-dimensional KMn6Bi5 with [Mn6Bi5]-columns under high pressure. Here we report the synthesis, magnetic properties, electrical resistivity, and specific heat capacity of the newly-discovered quasi-one-dimensional NaMn6Bi5 single crystal. Compared with other AMn6Bi5 (A = K, Rb, and Cs), NaMn6Bi5 has larger intra-column Bi-Bi bond length, which may result in the two decoupled antiferromagnetic transitions at 47.3 K and 52.3 K. The relatively lower antiferromagnetic transition temperatures make NaMn6Bi5 a more suitable platform to explore Mn-based superconductors. Anisotropic resistivity and non-Fermi liquid behavior at low temperature are observed. Heat capacity measurement reveals that NaMn6Bi5 has similar Debye temperature with those of AMn6Bi5 (A = K and Rb), whereas the Sommerfeld coefficient is unusually large. Using first-principles calculations, the quite different density of states and an unusual enhancement near the Fermi level are observed for NaMn6Bi5, when compared with those of other AMn6Bi5 (A = K, Rb, and Cs) compounds.