Author:
Kabir Firoza,Hosen M. Mofazzel,Ding Xiaxin,Lane Christopher,Dhakal Gyanendra,Liu Yangyang,Dimitri Klauss,Sims Christopher,Regmi Sabin,Sakhya Anup Pradhan,Persaud Luis,Beetar John E.,Liu Yong,Chini Michael,Pathak Arjun K.,Zhu Jian-Xin,Gofryk Krzysztof,Neupane Madhab
Abstract
Three-dimensional (3D) topological insulator (TI) has emerged as a unique state of quantum matter and generated enormous interests in condensed matter physics. The surfaces of a 3D TI consist of a massless Dirac cone, which is characterized by the Z2 topological invariant. Introduction of magnetism on the surface of a TI is essential to realize the quantum anomalous Hall effect and other novel magneto-electric phenomena. Here, by using a combination of first-principles calculations, magneto-transport and angle-resolved photoemission spectroscopy (ARPES), we study the electronic properties of gadolinium (Gd)-doped Sb2Te3. Our study shows that Gd doped Sb2Te3 is a spin-orbit-induced bulk band-gap material, whose surface is characterized by a single topological surface state. Our results provide a new platform to investigate the interactions between dilute magnetism and topology in magnetic doped topological materials.
Subject
Materials Science (miscellaneous)