A low-temperature Kerr effect microscope for the simultaneous magneto-optic and magneto-transport study of magnetic topological insulators

Autor: J. Llandro, Michael R. Stanton, L. B. Duffy, Angadjit Singh, Richard T. Phillips, Thorsten Hesjedal, Stuart Holmes, Crispin H. W. Barnes, Jieyi Liu, Matthew Applegate
Přispěvatelé: Liu, J [0000-0001-6588-5987], Llandro, J [0000-0002-1362-6083], Hesjedal, T [0000-0001-7947-3692], Apollo - University of Cambridge Repository
Rok vydání: 2019
Předmět:
Zdroj: Measurement Science and Technology.
ISSN: 1361-6501
Popis: Magneto-optic Kerr effect (MOKE) microscopy is a surface-sensitive probe of magnetisation with micron-sized lateral resolution.Here, we present a low-temperature, focused polar MOKE microscope for the simultaneous magneto-optical and magneto-transport measurements, which has a temperature range of 1.6-300 K and is equipped with a magnet capable of delivering a field of up to 9 T. In this microscope, all optical components are integrated in a free-standing probe, allowing for the straightforward incorporation into many non-optical cryostat systems. Two-dimensional magnetisation scans on patterned ferromagnetic [CoFeB/Pt]alt;subagt;nalt;/subagt; films demonstrate a magnetisation sensitivity of 10 μrad (Kerr angle) and a spatial resolution of 2.2 μm. The combination of optical and electrical measurements provides complementary temperature-dependent information, as demonstrated by the study of magnetic topological insulator thin films with out-of-plane magnetic anisotropy. Using this complementary approach, we study the effects of a secondary phase in Cr and V co-doped Sbalt;subagt;2alt;/subagt;Tealt;subagt;3alt;/subagt; thin films, which show a combination of weak antilocalization and anisotropic magnetoresistance effects above 70 K. Our results highlight the virtue of MOKE and electrical transport to optimise exotic topological magnetic materials, paving the way for energy-efficient spintronic devices.
Databáze: OpenAIRE
Externí odkaz: