Magnetic ground state of the Ising-like antiferromagnet DyScO$_3$
Abstract: We report the low temperature magnetic properties of the DyScO$3$ perovskite, which were characterized by means of single crystal and powder neutron scattering, and by magnetization measurements. Below $T{\mathrm{N}}=3.15$ K, Dy${3+}$ moments form an antiferromagnetic structure with an easy axis of magnetization lying in the $ab$-plane. The magnetic moments are inclined at an angle of $\sim\pm{28}{\circ}$ to the $b$-axis. We show that the ground state Kramers doublet of Dy${3+}$ is made up of primarily $|\pm 15/2\rangle$ eigenvectors and well separated by crystal field from the first excited state at $E_1=24.9$ meV. This leads to an extreme Ising single-ion anisotropy, $M_{\perp}/M_{|}\sim{0.05}$. The transverse magnetic fluctuations, which are proportional to $M{2}{\perp}/M{2}{|}$, are suppressed and only moment fluctuations along the local Ising direction are allowed. We also found that the Dy-Dy dipolar interactions along the crystallographic $c$-axis are 2-4 times larger than in-plane interactions.
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