Physics of the Solid State. Vol. 61, No. 4, Pages 565-570, 2019

M. A. Anisimov^a^,*, A. V. Bogach^a, A. V. Kuznetsov^b, A. N. Azarevich^a^,^c, N. A. Samarin^a, S. V. Demishev^a^,^c, N. Yu. Shitsevalova^d, A. V. Dukhnenko^d, V. B. Filipov^d, N. E. Sluchanko^a^,^c, and V. V. Glushkov^a^,^c
Translated by A. Sin’kov

^aProkhorov General Physics Institute, Russian Academy of Sciences, Moscow, 119991 Russia

^cMoscow Institute of Physics and Technology, Dolgoprudny, Moscow oblast, 141701 Russia

^dFrantsevich Institute for Problems of Materials Science, National Academy of Sciences of Ukraine, Kyiv, 03142 Ukraine

Abstract—The magnetic properties of substitutional solid solutions Eu_0.9Yb_0.1B₆ have been investigated in the temperature range of 2–300 K in fields up to 5 T. The data obtained confirm that the state with the electronic and magnetic phase separation (typical of europium hexaboride) is implemented in Eu_0.9Yb_0.1B₆ when the system metallization (T_M ≈ 15 K) precedes the ferromagnetic ordering (T_C ≈ 11.4 K). An analysis of the curves M(H) in the Belov–Arrott coordinates makes it possible to evaluate spontaneous magnetization M_sp and zero field susceptibility χ₀ and determine the character of their critical behavior near the Curie point. The calculated critical indices (γ ≈ 1.28 and β ≈ 0.34) are in agreement with the predictions of the three-dimensional Heisenberg model.

Magnetic Properties of Eu0.9Yb0.1B6

Magnetic Properties of Eu_0.9Yb_0.1B₆