Magnetic refrigeration down to 0.2 K by heavy fermion metal YbCu4Ni
Yasuyuki Shimura, Kanta Watanabe, Takanori Taniguchi, Kotaro Osato, Rikako Yamamoto, Yuka Kusanose, Kazunori Umeo, M. Fujita, Takahiro Onimaru, T. Takabatake
Abstract
Ytterbium-based heavy-fermion metals have recently attracted attention as magnetic refrigeration materials generating low-temperature environments below 1 K without using expensive 3He. YbCu4Ni is known to exhibit a giant value of specific heat divided by temperature C/T∼7.5J/K2mol below 0.2 K, implying high potential of magnetic refrigeration. In this paper, we report magnetic refrigeration down to 0.2 K from the initial temperatures of 1.8 K by YbCu4Ni ingots installed in a commercial 4He refrigerator. The performance is consistent with that evaluated by our DC magnetization and specific heat measurements. Our study demonstrates the high performance of YbCu4Ni without precious metals as a magnetic refrigeration material with moderately high density of Yb atoms (∼0.02Ybmol/cm3) and high thermal conductivity.