Magnetic properties and magnetocaloric effect in the HoNi1−xCuxIn (x=0, 0.1, 0.3, 0.4) intermetallic compounds

The magnetic properties and magnetocaloric effect (MCE) in HoNi1−xCuxIn (x=0, 0.1, 0.3, 0.4) compounds have been investigated. With the substitution of Cu for Ni, the Ho magnetic moment will cant from the c-axis, and form a complicated magnetic structure. These compounds exhibit two successive magnetic transitions with the increase in temperature. The large reversible magnetocaloric effects have been observed in HoNi1−xCuxIn compounds around Tord, with no thermal and magnetic hysteresis loss. The large reversible isothermal magnetic entropy change (−ΔSM) is 20.2J/kgK and the refrigeration capacity (RC) reaches 356.7J/kg for field changes of 5T for HoNi0.7Cu0.3In. Especially, the value of −ΔSM (12.5J/kgK) and the large RC (132J/kg) are observed for field changes of 2T for HoNi0.9Cu0.1In. Additionally, the values of RC are improved to 149J/K for the field changes of 2T due to a wide temperature span for the mix of HoNi0.9Cu0.1In and HoNi0.7Cu0.3In compounds with the mass ratio of 1:1. These compounds with excellent MCE are expected to have effective applications in magnetic refrigeration around 20K. •For magnetic-field changes of 2T, the values of RC are improved to 149J/K.•MCEs of these compounds show no thermal and magnetic hysteresis.•Compounds show two successive magnetic transitions with the increase in temperature.•With the substitution of Cu for Ni, compounds form a complicated magnetic structure.