Affordable Access

Publisher Website

Magnetic phase transitions in intermetallic CeCuGe compound

Solid State Communications
Publication Date
DOI: 10.1016/j.ssc.2005.09.015
  • A. Rare-Earth Compound
  • A. Rare-Earth-Transition Metal Compound
  • D. Magnetic Phase Transition
  • D. Spin Fluctuations
  • D. Thermal Conductivity
  • Physics


Abstract Electrical and magnetic properties of CeCuGe were investigated through electrical resistivity, thermal conductivity and magnetization measurements in the temperature range 2–300 K. Magnetization measurements indicate a paramagnetic to ferromagnetic transition at T=10 K, in agreement with previous work. There are two distinct paramagnetic regimes: At high- T the magnetic moment per cerium is 2.50 μ B, nearly equal to the expected 2.54 μ B for Ce 3+, while at low- T the effective moment decreases to 2.20 μ B per cerium. This decrease is attributed to crystalline electric field effects. In the ferromagnetic region, the hysteresis curve indicates a rather small anisotropy ( H c less than 20 Oe). There is also very little remanence (the ratio of the remanence to the technical saturation magnetization is about 0.05), implying that this material is magnetically quite soft, with a very small magnetocrystalline anisotropy, contrary to what was reported in a previous investigation. In the temperature regime 10–30 K the resistivity obeys a T 2-behavior, consistent with the appearance of spin fluctuations above the ferromagnetic transition. In the same temperature regime, the thermo-power exhibits a linear rise in addition to a T 2 term, anomalous behavior which we also attribute tentatively to the development of spin fluctuations.

There are no comments yet on this publication. Be the first to share your thoughts.