Magneto-optic Kerr effect in CoFe2−xMxO4 (M=Mn, Cr, Al) and BaFe12−2x–COxTixO19 with tetrahedrally coordinated Co2+

Abstract

Polar Kerr effect has been observed at λ=0.4–2.0 μm on hot‐pressed ceramics of Co²⁺Fe³⁺_2−xM³⁺_xO₄ (M=Mn, Cr, Al, 0≤x≤1.2) and BaFe³⁺_12−2x–Co²⁺_xTi⁴⁺_xO₁₉ (0≤x≤1.5), in which tetrahedrally coordinated Co²⁺ ions [Co²⁺(Td)] increase with x. To avoid effect of birefringence in the hexagonal ferrite, ceramics with prefered orientation along the c axis have been prepared by a topotaxial reaction technique. Enhancement in the Kerr effect associated with the crystal field transitions of Co²⁺ (Td) is observed at λ≊0.7 and 1.7 μm in both CoFe_2−xM_xO₄ and BaFe_12−2x–Co_xTi_xO₁₉, though the magnitude in the latter compound is several times smaller than in the former. The large normal remanence observed by surface Kerr effect in CoFe_2−xM_xO₄ can not be attributed to the residual stress induced by hot‐pressing as has been pointed out previously.