Charge Density Modulation and Defect Ordering in NaxMnBiy magnetic semimetal

Abstract

The I-Mn-V antiferromagnet, NaMnBi, develops a very large positive magnetoresistance (MR) up to 10,000% at 2 K and 9 T in crystals showing a semiconductor-to-metal transition (SMT). In the absence of an SMT, a modest (20%) MR is achieved. Here, we show that upon cooling below the magnetic transition, a spatial modulation appears giving rise to new Bragg peaks due to charge and defect ordering in a checkerboard pattern, with two kinds of modulation vectors, q1=(23, 0, 1) and q2=(23, 13, 12). This constitutes a superlattice transition (Ts) that lowers the symmetry from the high temperature centrosymmetric P4/nmm to the non-centrosymmetric P4m2. In crystals with a large MR, a close to room temperature Ts is observed with q1 appearing first, followed by q2. In crystals with low MR however, Ts is much lower and only q1 is observed. The charge modulation and spin fluctuations may both contribute to the enhancement of MR.