Influence of irreversible demagnetization on the polarization of thermal radiation emitted by a hot cobalt wire

Abstract

thermal radiation emitted by a %hot cobalt wire in the temperature range from \(T≈ 400\,\)K up to melting. The radiation is linearly polarized perpendicular to the wire. \(P\) decreases from \(30\,\%\) just above room temperature down to \(6.5\,\%\) near melting and does not show any particular behavior neither at the martensitic hcp- fcc transition at \(≈ 700\,\)K nor at the Curie point at \( ≈ 1400\,\)K. However, \(P\) shows a rapid decrease for \(T 1000\,\)K and, contrary to previous measurements with tungsten wires, it hysteretically behaves if the temperature change is reversed. This behavior is rationalized by %taking into account accounting for the irreversible thermal demagnetization of the wire with magnetic domain size change.