Crystal structure, magnetic properties and magnetocaloric performance of RE$_{5}$Rh$_2$In$_4$ (RE = Gd-Tm) compounds

Polycrystalline samples of the RE$_{5}$Rh$_2$In$_4$ (RE = Gd--Tm) intermetallics have been investigated by means of X-ray diffraction (XRD) as well as by DC and AC magnetometric measurements. The XRD data confirm that the compounds crystallize with the orthorhombic Lu$_{5}$Ni$_2$In$_4$-type structure (space group Pbam, No. 55). With decreasing temperature, RE$_{5}$Rh$_2$In$_4$ spontaneously order magnetically with the critical temperatures of magnetic order equal to 10.6, 14.2, 15.4, 7.2, 5.9 and 4.9 K for RE = Gd, Tb, Dy, Ho, Er and Tm, respectively. The compounds have complex magnetic properties, showing features characteristic of both ferro- and antiferromagnetic orderings. Moreover, the magnetic properties change with increasing number of the 4f electrons from predominantly ferromagnetic in Gd$_{5}$Rh$_2$In$_4$ to predominantly antiferromagnetic in Tm$_{5}$Rh$_2$In$_4$. The magnetic data indicate that only the rare earth atoms carry magnetic moments. The maximum magnetic entropy change ($-\Delta S_{M}^{max}$) at the 0-9 T magnetic flux density change ($\Delta \mu_0 H$) equals 12.4 J$\cdot$kg$^{-1}\cdot$K$^{-1}$ at 17 K for Gd$_{5}$Rh$_2$In$_4$, 11.3 J$\cdot$kg$^{-1}\cdot$K$^{-1}$ at 28 K for Tb$_{5}$Rh$_2$In$_4$, 13.1 J$\cdot$kg$^{-1}\cdot$K$^{-1}$ at 19 K for Dy$_{5}$Rh$_2$In$_4$, 16.4 J$\cdot$kg$^{-1}\cdot$K$^{-1}$ at 12 K for Ho$_{5}$Rh$_2$In$_4$, 15.3 J$\cdot$kg$^{-1}\cdot$K$^{-1}$ at 8 K for Er$_{5}$Rh$_2$In$_4$ and 12.6 J$\cdot$kg$^{-1}\cdot$K$^{-1}$ at 6.5 K for Tm$_{5}$Rh$_2$In$_4$. For a selected rare earth element (RE), the member of the RE$_{5}$Rh$_2$In$_4$ family of compounds reaches the highest $-\Delta S_{M}^{max}$ value, when compared with its RE$_{5}$T$_2$In$_4$ (T = Ni, Pd, Pt) isostructural analogues, making the RE$_{5}$Rh$_2$In$_4$ intermetallics a good choice for application in low-temperature magnetic refrigeration.