Abstract
The tetragonal intermetallic compounds In and Sn have been studied by means of magnetic susceptibility, magnetization, specific heat, electrical resistivity, and x-ray- and neutron-diffraction techniques. The compounds order antiferromagnetically at 36 and 41 K, respectively, and have enhanced electronic specific-heat coefficients γ of 393 and 203 mJ/mol f.u. , respectively. At low temperature, the nearest-neighbor U-U spacing is along the c axis in both compounds, though in Sn the in-plane U-U distance is shorter at room temperature. This crossover is due to motion of the U atoms within the cell rather than anisotropy of the thermal contraction. It is now well established in several classes of (1:1:1) uranium ternary intermetallic compounds that the strong magnetic anisotropy is correlated with the direction of nearest-neighbor U-U links; the moments are almost invariably oriented perpendicular to such links. This is also the case for In and Sn, where the moments lie in the tetragonal basal plane in a canted arrangement along [110] and [11¯0] directions. Of four such Shubnikov subgroups of P4/mbm, one is clearly preferred by the data. At 10 K, the magnetic moments extracted are (1.6±0.2) and (2.0±0.1) per U atom in In and Sn, respectively.
- Received 12 May 1994
DOI:https://doi.org/10.1103/PhysRevB.50.6792
©1994 American Physical Society