Valence fluctuation in Ce2Re3Si5 and Ising-type magnetic ordering in Pr2Re3Si5 single crystals

Abstract

Single crystals of Ce2Re3Si5 and Pr2Re3Si5 have been grown by Czochralski method in a tetra-arc furnace. Powder x-ray diffraction confirmed that these compounds crystallize in the U2Mn3Si5-type tetragonal crystal structure with space group P4/mnc (No. 128). The anisotropic physical properties have been studied comprehensively by measuring the magnetic susceptibility, isothermal magnetization, electrical transport and specific heat. The low value of magnetic susceptibility together with no magnetic transition down to 2~K gives evidence that the Ce-ions are in the intermediate valence state in Ce2Re3Si5. On the other hand Pr2Re3Si5 revealed a magnetic ordering at 9~K. The sharp drop in the magnetic susceptibility and a spin flip like metamagnetic transition, for H~~[001] in the magnetization plot of Pr2Re3Si5 suggest an Ising-type antiferromagnetic ordering. Based on magnetic susceptibility and isothermal magnetization data, a detailed crystal electric field (CEF) analysis shows that degenerate J = 4 Hund's rule derived ground state of Pr3+ ion splits into nine singlets with an overall splitting of 1179~K. The magnetic ordering in Pr2Re3Si5 is due to the exchange-generated admixture of the lowest lying CEF energy levels. Heat capacity data reveal a sharp peak at 9~K, that confirms the bulk nature of the magnetic ordering in Pr2Re3Si5.