The enhanced magnetocaloric effect in Dy ₂ In _1−x Al _x by a non-hysteresis metamagnetic phase transition

To enhance the magnetocaloric effect of the second-order magnetic phase transition is eagerly sought in the development of practical magnetic refrigeration technology. Here, demonstrated by Dy ₂ In _1−x Al _x (0 ≤ x ≤ 0.5) system, the max magnetic entropy change is significantly enhanced to 13.4 Jkg ⁻¹ K ⁻¹ in Dy ₂ In _0.7 Al _0.3 and 10.8 Jkg ⁻¹ K ⁻¹ in Dy ₂ In _0.6 Al _0.4 alloys compared with 8.8 Jkg ⁻¹ K ⁻¹ in Dy ₂ In through a field-induced metamagnetic phase transition, which is unconventionally of nonhysteresis confirmed by magnetic measurements. Considering that nonhysteresis metamagnetic transition occurs at the critical composition where hexagonal structure is formed for x ≤ 0.3 while orthorhombic structure for x ≥ 0.4, the origin is ascribed to the lattice distortion.