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Article Abstract
Adiabatic demagnetization refrigeration (ADR) is a promising cooling technology with high efficiency and exceptional stability in achieving ultralow temperatures, playing an indispensable role at the forefront of fundamental and applied science. However, a significant challenge for ADR is that existing magnetic refrigerants struggle to concurrently achieve low magnetic ordering temperatures () and substantial magnetic entropy changes (-Δ) at ultralow temperatures. In this work, we propose the combination of Gd and Yb to effectively regulate both -Δ and in ultralow temperatures. Notably, the -Δ values for GdYbF () and GdYbF () in the 0.4-1.0 K range exceed those of all previously reported magnetic refrigerants within this temperature interval, positioning them as the most efficient magnetic refrigerants for the third stage to date. Although the -Δ values for GdYbF () in 1-4 K are less than those of the leading magnetic refrigerant Gd(OH)F, the -Δ values for GdYbF () in 1-4 K at 2 T surpass those of all magnetic refrigerants previously documented within the same temperature range, making it the superior magnetic refrigerant for the fourth stage identified thus far.
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