Relationship between polymorphic structures and magnetic properties of La2-xA'xNi7 compounds (A' = Sm, Gd)

Abstract

In this study, the crystal structure and magnetic properties of La2-x A'xNi7 compounds with magnetic rare earth elements (A' = Sm, Gd) have been investigated combining X-ray powder diffraction and magnetic measurements. These intergrowth compounds crystallize in a mixture of 2H hexagonal (Ce2Ni7-type) and 3R rhombohedral (Gd2Co7-type) polymorphic structures which are related to the stacking of [AB5] and [A2B4] subunits along the c-axis.The average cell volume decreases linearly versus A' content, whereas the c/a ratio reaches a minimum at x = 1, due to geometric constraints upon A' for La substitution between the two different subunits. The magnetic properties strongly depend on the structure type and the A' content. Hexagonal La2Ni7 is a weak antiferromagnet (wAFM) at low field and temperature and undergoes metamagnetic transitions towards weak ferromagnetic state (wFM) under applied field. Under an applied field of 0.1 T, La2-xA'xNi7 intermetallic compounds display two different transition temperatures T1 and T2 that both increase with x. T1 is associated with a wFM-wAFM transition in the 2H phase for A'= Sm, whereas T2 is related to the Curie temperature of both 2H and 3R phases. A metamagnetic behaviour is observed between T1 and T2 with transition field μ0HTrans between 2 and 3.5 T for compounds with A' = Sm. The La2-xSmxNi7 compounds (x > 0 behave as hard magnets with a large coercive field μ0HC at low temperature (μ0HC > 9 T at 5 K for x = 2), whereas the La2-x GdxNi7 compounds (x > 0) are soft ferrimagnets with a linear increase of the saturation magnetization versus Gd content.

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