A-site substitution effect on physical properties of Sr3Fe2-xCoxO7-δ

Abstract

We have investigated the Ln3+-substitution (Ln = lanthanoid) effect of a quasi two-dimensional ferromagnet Sr3Fe2-xCoxO7-δ (x = 0.5). %Ln3+-substitution creates antiferromagnetic insulating clusters around Ln3+. With increasing Ln3+-concentration, the ferromagnetism is gradually suppressed and the resistivity is increasing, which are ascribed to an increase in antiferromagnetic (AFM) clusters created by Ln3+-substitution. In Sr2.7Gd0.3Fe1.5Co0.5O7-δ, the magnetoresistance (MR) is enhanced by about 20 % compared with that of Sr3Fe1.5Co0.5O7-δ. Coexistence of ferromagnetic (FM) and AFM phases is essential for the enhancement of the MR\@. Applied magnetic fields align the FM clusters in the same direction, resulting in a reduction in the resistivity. A metamagnetic transition observed in the Ln3+-doped samples also contributes to the enhancement of the MR.