Relation between the weak itinerant magnetism in $A_2$Ni$_7$ compounds ($A$ = Y, La) and their stacked crystal structures
Jean-Claude Crivello, Val\'erie Paul-Boncour

TL;DR
This study uses electronic band structure calculations to explore how the stacking of crystal layers influences the weak itinerant magnetic properties of $A_2$Ni$_7$ compounds with $A$ = Y, La, revealing the relationship between structure and magnetic behavior.
Contribution
It provides a detailed first-principles analysis linking the polymorphic crystal structures of $A_2$Ni$_7$ compounds to their magnetic properties, including ferromagnetic and antiferromagnetic states.
Findings
Both compounds show a sharp peak at the Fermi level indicating magnetic instability.
$2H$-La$_2$Ni$_7$ is an antiferromagnet, while $3R$-Y$_2$Ni$_7$ is a ferromagnet.
Ni magnetic moments vary with their positions in the structure.
Abstract
The weak itinerant magnetic properties of Ni compounds with = {Y, La} have been investigated using electronic band structure calculations in the relation with their polymorphic crystal structures. These compounds crystallizes in two structures resulting from the stacking of two and three blocks of [Ni + 2 Ni] units for hexagonal -LaNi (CeNi type) and rhombohedral -YNi (GdCo type) respectively. Experimentally, -LaNi is a weak itinerant antiferromagnet whereas -YNi is a weak itinerant ferromagnet. From the present first principles calculation within non-spin polarized state, both compounds present an electronic density of state with a sharp and narrow peak centered at the Fermi level corresponding to flat bands from -Ni. This induces a magnetic instability and both compounds are more stable in…
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