Quantitative noncontact measurement of thermal Hall angle and transverse thermal conductivity by lock-in thermography

Abstract

We propose and demonstrate a quantitative noncontact measurement method for the thermal Hall effect (THE) based on magnetic-field-modulated lock-in thermography. This method enables visualization of THE-induced temperature change and quantitative estimation of the thermal Hall angle θ THE by applying periodic magnetic fields to a sample and obtaining the first harmonic response of thermal images. By combining this method with LIT-based measurement techniques for the longitudinal thermal conductivity xx, we also quantify the transverse thermal conductivity xy. We validate our measurement methods by estimating θ THE, xx, and xy in a ferromagnetic Heusler alloy Co2MnGa slab showing large THE.