Correlations between stacked structures and weak itinerant magnetic properties of La$_{2-x}$ Y$_x $ Ni$_7$ compounds
Val\'erie Paul-Boncour, Jean-Claude Crivello, Nicolas Madern, Junxian, Zhang, L\'eopold Diop, V\'eronique Charbonnier, Judith Monnier, Michel, Latroche

TL;DR
This study investigates how stacking structures influence the weak itinerant magnetic properties of La$_{2-x}$Y$_x$Ni$_7$ compounds, revealing structure-dependent magnetic behaviors and phase stability through experiments and first-principles calculations.
Contribution
It provides new insights into the relationship between crystal structure and magnetic properties in La-Y-Ni compounds, combining experimental analysis with theoretical calculations.
Findings
Y content affects crystal structure type and magnetic behavior.
La$_2$Ni$_7$ shows complex metamagnetic transitions.
Y-rich compounds exhibit weak ferromagnetism with specific transition temperatures.
Abstract
Hexagonal LaNi and rhombohedral YNi are weak itinerant antiferromagnet (wAFM) and ferromagnet (wFM), respectively. The crystal structure and magnetic properties of intermetallic compounds ( = La, Y, = Ni) have been investigated combining X-ray powder diffraction and magnetic measurements. The LaYNi intermetallic compounds with crystallize in the CeNi-type hexagonal structure with Y preferentially located in the [] units. The compounds with larger Y content () crystallize in both hexagonal and rhombohedral (GdCo-type) structures with a progressive substitution of Y for La in the sites belonging to the [] units. YNi crystallizes in the rhombohedral structure only. The average cell volume decreases linearly versus Y content, whereas the c/a ratio presents a minimum at…
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