Ultrahigh mobility and giant magnetoresistance in the Dirac semimetal Cd3As2

Abstract

Dirac semimetals and Weyl semimetals are 3D analogs of graphene in which crystalline symmetry protects the nodes against gap formation [1-3]. Na3Bi and Cd3As2 were predicted to be Dirac semimetals [4,5], and recently confirmed to be so by photoemission [6-8]. Several novel transport properties in a magnetic field H have been proposed for Dirac semimetals [2,9-11]. Here we report an interesting property in Cd3As2 that was unpredicted, namely a remarkable protection mechanism that strongly suppresses back-scattering in zero H. In single crystals, the protection results in a very high mobility that exceeds >107 cm2/Vs below 4 K. Suppression of backscattering results in a transport lifetime 104× longer than the quantum lifetime. The lifting of this protection by H leads to an unusual giant H-linear magnetoresistance that violates Kohler's rule. We discuss how this may relate to changes to the Fermi surface induced by H.