Infrared Kerr measurements in ferromagnetic silicon carbide

A. Mukherjee; C.T. Ellis; N. Tesarova; J. Cerne; Yu Liu; Shunchong Wang; Gang Wang

Infrared Kerr measurements in ferromagnetic silicon carbide

ORAL

Abstract

We measure the infrared (100-1000 meV) polar Kerr angle in ferromagnetic silicon carbide (SiC). The Kerr angle is sensitive to the Hall conductivity $\sigma _{xy}$ and measures the difference of optical responses for left and right circularly polarized light, which makes it a sensitive spectral probe for small changes in the symmetry of the system due to magnetic order. Both neutron-irradiated and Al-doped samples are studied in the 10-300K temperature range. This study provides new insights into the mechanisms by which non-magnetic impurities and defects can produce magnetic order. Strong frequency dependence and hysteresis are observed in the Kerr measurements. Work supported by NSF-DMR1006078.

March 1, 2012, 4:42 PM – March 1, 2012, 4:54 PM

Authors

A. Mukherjee
- Physics Dept., University at Buffalo, Buffalo, NY
- SUNY Buffalo, Dept. of Physics
- Physics Dept., University at Buffalo, SUNY
C.T. Ellis
- Physics Dept., University at Buffalo, Buffalo, NY
- SUNY Buffalo, Dept. of Physics
- Physics Dept., University at Buffalo, SUNY
N. Tesarova
- Physics Dept., University at Buffalo, Buffalo, NY
- SUNY Buffalo, Dept. of Physics
- Physics Dept., University at Buffalo, SUNY
J. Cerne
- Physics Dept., University at Buffalo, Buffalo, NY
- SUNY Buffalo, Dept. of Physics
- SUNY Buffalo
- Physics Dept., University at Buffalo, SUNY
Yu Liu
- Institute of Physics, Chinese Academy of Sciences, China
Shunchong Wang
- Institute of Physics, Chinese Academy of Sciences, China
Gang Wang
- Institute of Physics, Chinese Academy of Sciences, China