Tunable photo-galvanic effect on topological insulator surfaces via proximity interactions

Abstract

An unusual photo-galvanic effect is predicted on the topological insulator surface when its semi-metallic electronic spectrum is modified by an adjacent ferromagnet. The effect is correlated with light absorption in a wide frequency range (from a few to hundreds of meV) and produces a pronounced response that is not only resonant to the photon energy but also tunable by an external electrical bias. The exceptionally strong peak photocurrent of the order of μA/cm may be achieved at elevated temperatures with the illumination power of 1 W/cm2 in the THz range on Bi2Se3. These advantages could enable room-temperature detection of far-infrared radiation.