Easy-plane magnetocrystalline anisotropy in the multi-step metamagnet CeIr3Si2
Abstract
Highly anisotropic properties of CeIr3Si2 have been observed by the magnetization M(B), electrical resistivity , and specific heat measurements on a single-crystalline sample. This compound with an orthorhombic structure having zigzag chains of Ce ions along the a-axis undergos magnetic transitions at 3.9 K and 3.1 K. At 0.3 K, metamagnetic transitions occur at 0.68 T and 1.3 T for B//b and 0.75 T for B//c. Easy-plane magnetocrystalline anisotropy is manifested as M(B//b) M(B//c) 11M(B//a) at B = 5 T. Electrical resistivity is also anisotropic; b c 2a. The magnetic part of exhibits a double-peak structure with maxima at 15 K and 250 K. The magnetic entropy at TN1 = 3.9 K is a half of Rln2. These observations are ascribable to the combination of the Kondo effect with TK 20 K and a strong crystal field effect. The analysis of M(B) and paramagnetic susceptibility revealed unusually large energy splitting of 500 K and 1600 K for the two excited doublets, respectively.
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