磁制冷
材料科学
凝聚态物理
工程物理
复合材料
磁化
磁场
量子力学
物理
作者
B. Shanta,Xinguo Zhao,N. Li,X. F. Sun
标识
DOI:10.1016/j.jsamd.2025.100932
摘要
In this work, two rare earth borates, REBO 3 (RE = Gd, Yb), were synthesized using the traditional solid-state method. Both compounds crystallize in a monoclinic structure belonging to space group C 2/ c . The magnetism and magnetocaloric effect of REBO 3 compounds have been studied through isothermal magnetization, magnetic susceptibility, and specific heat measurement. No obvious long-range order in either GdBO 3 or YbBO 3 compounds can be found at the low-temperature T ≥ 2 K in susceptibility and specific heat curves, suggesting a paramagnetic-like behavior at low temperatures. However, these compounds exhibit weak short-range antiferromagnetic couplings at low temperatures, as indicated by the Curie-Weiss fitting and magnetic susceptibilities under varying applied fields. The calculated value of magnetic entropy change -Δ S m reaches the maximum value of 10.8 J mol −1 K −1 for a field change from 0 to 7 T at 2 K for GdBO 3 , and YbBO 3 is 4.9 J mol −1 K −1 . However, GdBO 3 shows an adiabatic temperature change (Δ T ad ) of 3.3 K and 7.9 K for field changes of 0–3 T and 0–7 T, respectively. Furthermore, we found that, in the liquid helium temperature range, GdBO 3 is a more competitive magnetocaloric material than YbBO 3 . These results indicate the presence of distinct magnetic anisotropy for various rare-earth ions, as shown by isothermal magnetization and heat capacity measurements, which suggests that REBO 3 is a promising system for studying a variety of magnetic ground states.
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