Discovery and Characterization of Antiferromagnetic UFe<sub>5</sub>As<sub>3</sub>
Nazar Zaremba, Mitja Krnel, Yurii Prots, Markus König, L. G. Akselrud, Yu. Grin, Eteri Svanidze
Abstract
High Resolution Image Download MS PowerPoint Slide This work presents a study on a new uranium iron arsenide UFe 5 As 3 . By implementing Bi-flux synthesis, we were able to grow mm-sized single crystals of this compound, which show twinning. UFe 5 As 3 is one of only two known uranium iron arsenides. It adopts a monoclinic, UCr 5 P 3 -type crystal structure (space group P 2 1 / m, Pearson symbol mP 18, a = 7.050(2) Å, b = 3.8582(9) Å, c = 9.634(1) Å, β = 100.25(1)°). The magnetic susceptibility of UFe 5 As 3 indicates it to be an antiferromagnet with T N = 47 K and μ eff = 4.94 μ B per formula unit, signaling that both U and Fe are likely magnetic in this material. The material appears to be anisotropic, with a small (likely ferromagnetic) spin reorientation transition around T = 29 K. The Sommerfeld coefficient γ 0 = 135 mJ mol –1 K –2 suggests enhanced effective electron mass in UFe 5 As 3, while electrical resistivity indicates metallic, Kondo-like behavior.