Carrier Density and Thickness Dependent Proximity Effect in Doped Topological Insulator -- Metallic Ferromagnet Bilayers

Abstract: We use magneto-conductivity to study magnetic proximity effect on surface states of doped topological insulators. Our bilayers consist of a layer of Fe7Se8, which is a metallic ferrimagnet and a layer of Bi0.8Sb1.2Te3 which is a highly hole-doped topological insulator. Using transport measurements and a modified Hikami-Larkin-Nagaoka model, we show that the ferromagnet shortens significantly the effective coherence length of the surface states, suggesting that a gap is opened at the Dirac point. We show that t… Show more