Magnetic refrigeration around the liquid-helium temperature is crucial for various technological applications. While gallium gadolinium garnet (GGG) is a benchmark material, its limited magnetic entropy change, reliance on superconducting magnets, and large device size hinder its use. This study demonstrates that LiREF₄ (RE = rare earth) single crystals exhibit superior magnetocaloric performance compared to GGG. LiHoF₄ achieves a record-high magnetic entropy change of 16.7 Jkg⁻¹K⁻¹ under a 5 kOe field, significantly exceeding GGG's 1.0 Jkg⁻¹K⁻¹. The combination of low driving fields, large entropy changes, and excellent thermal/magnetic reversibility makes LiREF₄ ideal for compact magnetic refrigeration near liquid-helium temperatures.
Publisher
NPG Asia Materials
Published On
Mar 15, 2023
Authors
Peng Liu, Dongsheng Yuan, Chao Dong, Gaoting Lin, Encarnación G. Villora, Ji Qi, Xinguo Zhao, Kiyoshi Shimamura, Jie Ma, Junfeng Wang, Zhidong Zhang, Bing Li
Tags
magnetic refrigeration
LiREF₄
magnetocaloric performance
magnetic entropy change
liquid-helium temperatures
gallium gadolinium garnet
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