Magnetic property and crystalline electric field effect in ThCr2Si2-type CeNi2As2

Abstract

Millimeter sized ThCr2Si2-type CeNi2As2 single crystal was synthesized by NaAs flux method and its physical properties were investigated by magnetization, transport and specific heat measurements. In contrast to the previously reported CaBe2Ge2-type CeNi2As2, the ThCr2Si2-type CeNi2As2 is a highly anisotropic uniaxial antiferromagnet with the transition temperature TN=4.8 K. A field induced spin flop transition was seen below TN when the applied B is parallel to the c-axis, the magnetic easy axis, together with a huge frustration parameter f=θW/TN. A pronounced Schottky-like anomaly in specific heat was also found around 160 K, which could be attributed to the crystalline electric field effect with the excitation energies being fitted to 1=325 K and 2=520 K, respectively. Moreover, the in-plane resistivity anisotropy and low temperature X-ray diffractions suggest that this compound is a rare example exhibiting a possible structure distortion induced by the 4f-electron magnetic frustration.