Magnetic, electrical resistivity, heat-capacity and thermopower anomalies in CeCuAs2
Abstract
The results of magnetic susceptibility, electrical resistivity (), heat-capacity (C) and thermopower (S) measurements on CeCuAs2, forming in ZrCuSi2-type tetragonal structure, are reported. Our investigations reveal that Ce is trivalent and there is no clear evidence for long range magnetic ordering down to 45 mK. The behavior is notable in the sense that (i) the temperature (T)-coefficient of is negative in the entire range of measurement (45 mK to 300 K) with large values of , while S behavior is typical of metallic Kondo lattices, and (ii) is proportional to T-0.6 at low temperatures, without any influence on the exponent by the application of a magnetic field, which does not seem to classify this compound into hither-to-known non-Fermi liquid (NFL) systems. In contrast to the logarithmic increase known for NFL systems, C/T measured down to 0.5 K exhibits a fall below 2 K. The observed properties of this compound are unusual among Ce systems.
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