Magnetic and transport anomalies in the compounds, RCuAs2 (R=Pr, Nd, Sm, Gd, Tb, Dy, Ho, and Er)

The results of DC magnetization, heat capacity, electrical resistivity (r) and magnetoresistance measurements are reported in detail for the compounds, RCuAs 2 for R=Pr, Nd, Sm, Gd, Tb, Dy, Ho, and Er, crystallizing in HfCuSi 2type tetragonal structure, with the aim of bringing out anomalies among 'normal' (that is, other than Ce and Yb) rareearths. The results establish that all these compounds order antiferromagnetically at low temperatures with deviations from de Gennes scaling. Isothermal magnetization (M) data below respective N! eel temperatures (T N ) reveal the existence of field-induced metamagnetic-like transitions for most of the compounds (except R= Sm and Gd), whereas in Sm and Gd compounds M varies essentially linearly with magnetic field. With respect to the r behavior, there appears to be a subtle difference in the temperature dependence beyond 50 K between Sm on the one hand and the rest on the other. In addition, the unexpected rðTÞ minimum reported recently for R=Sm, Gd, Tb and Dy in the paramagnetic state (around 20-30 K) is essentially absent for R=Ho and Er. The results overall reveal that the normal rare-earths in this series present an interesting situation in magnetism, warranting a new theoretical approach to describe the transport behavior in the paramagnetic state particularly in the vicinity of T N :