Magnetic properties of AlB2-type holmium silicides and germanides
Abstract
Discovery of the large magnetocaloric effect in HoB2 has highlighted the practical advantage of heavy rare-earth ions. Other holmium compounds are of interest, and we here report the synthesis and the magnetic properties of HoSi1.67 and HoGe1.67 which form the same AlB2-type structure but with vacancies. They are found to show the antiferromagnetic order with the Neel temperature 17.6(2)K for HoSi1.67 and 9.9(2)K for HoGe1.67, and the magnetic entropy changes at the temperature are 0.05(1)J/cm3K for HoSi1.67 and 0.08(1)J/cm3K for HoGe1.67. Magnetic orders were suppressed by replacing vacancies with nickel, resulting in an increase of magnetic entropy changes. Distance between the in-plane Ho3+ ions appears to be an important parameter leading to the transition between the antiferromagnetic (HoSi1.67) and the ferromagnetic (HoB2) order. The finding may aid the exploration of other heavy rare-earth compounds for similar applications.
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