Negative magnetoresistance in strained α-Sn and α-SnGe films in an in-plane magnetic field

Abstract

To test the hypothesis that the chiral anomaly is responsible for negative magnetoresitance (MR) in , we have studied magnetotransport in strained, epitaxial films of pure and the alloy that are in the Dirac semimetal and 3D topological insulator state, respectively. We have observed for both states a negative MR with current either parallel or transverse to the in-plane magnetic field, but with a different dependence of MR on B strength. Our results are inconsistent with the chiral anomaly and suggest that other mechanisms may be responsible for negative MR in the Dirac/Weyl semimetal phase of . We also discuss several factors in sample design and material quality that may be contributing to the incongruous observations of MR reported in studies of strained films.