Anisotropic magnetic entropy change in RFeO3 single crystals(R = Tb, Tm, or Y)

Abstract Compared with traditional gas-compression/expansion refrigeration, magnetic refrigeration based on magnetocaloric effect (MCE) exhibits the advantages of high energy efficiency and environment friendliness. Here, we created large MCE in RFeO 3 (R = Tb or Tm) single crystals by the magnetization vector rotation of single crystal with strong magnetocrystalline anisotropy (MCA), rather than merely via the order-disorder magnetic phase transition or magnetic structural transition. Owing to the difference in charge distribution of 4 f -electrons between Tb 3+ and Tm 3 + ions, the rotating field entropy with different signs, −Δ S M R = 17.42 J/kg K, and –Δ S M R = −9.01 J/kg K are achieved at 9 K and 17 K for TbFeO 3 and TmFeO 3 single crystals from b axis to c axis, at 50 kOe, respectively. The finding of the large anisotropic MCE not only advances our understanding of the anisotropy of MCE, but also extends the application for single crystals to magnetic refrigeration.