High-Pressure Synthesis of Magnetic Neodymium Polyhydrides

Search for room-temperature superconductivity is inspired by the unique properties of the electron-phonon interaction in metal superhydrides.Encouraged by the recently found highest-$T_C$ superconductor $fcc$-$LaH_{10}$, here we discover several polyhydrides of another lanthanide - neodymium. We identified three novel metallic Nd-H phases at pressures of 90 to 130 GPa: $I4/mmm$-$NdH_4$, $C2/m$-$NdH_7$ and $P6_3/mmc$-$NdH_{9+x}$ (x=0-0.5), synthesized by laser-heating metal samples in $NH_3BH_3$ media for in situ generation of hydrogen. A lower trihydride $Fm\bar{3}m$-$NdH_3$ was found at pressures from 2 to 52 GPa. $I4/mmm$-$NdH_4$ and $C2/m$-$NdH_7$ were stable from 130 down to 85 GPa, and $P6_3/mmc$-$NdH_{9+x}$ at 110 to 130 GPa. Theoretical calculations predict that all the neodymium hydrides have a strong magnetism at pressures below 150 GPa (> 2.2 $\mu_B$ per Nd atom): $C2/m$-$NdH_7$ and $hcp$-$NdH_{9}$ possess collinear anti-ferromagnetic [110] and [100]_2 orders respectively, while $NdH_4$ is a ferromagnetic with the (110) easy-axis. The critical Curie or Neel temperatures for new neodymium hydrides were estimated using the mean-field approximation as 100 K ($NdH_7$), 95 K ($NdH_9$) and 167 K ($NdH_4$).