Electronic and Magnetic Properties of Electron-doped Superconductor, Sm1.85Ce0.15CuO4-delta
Abstract
Temperature-dependent magnetization (M(T)) and specific heat (Cp(T)) measurements were carried out on single crystal Sm1.85Ce0.15CuO4-delta (Tc = 16.5 K). The magnetic anisotropy in the static susceptibility, chi equiv M/H, is apparent not only in its magnitude but also in its temperature dependence, with chiperp for Hperpc larger than chiparallel for Hparallelc. For both field orientations, chi does not follow the Curie-Weiss behavior due to the small energy gap of the J = 7/2 multiplet above the J = 5/2 ground-state multiplet. However, with increasing temperature, chiparallel(T) exhibits a broad minimum near 100 K and then a slow increase while chiperp(T) shows a monotonic decrease. A sharp peak in Cp(T) at 4.7 K manifests an antiferromagnetic ordering. The electronic contribution, gamma, to Cp(T) is estimated to be gamma = 103.2 (7) mJ/moleSmK2. The entropy associated with the magnetic ordering is much smaller than Rln2, where R is the gas constant, which is usually expected for the doublet ground state of Sm+3. The unusual magnetic and electronic properties evident in M(T) and Cp(T) are probably due to a strong anisotropic interaction between conduction electrons and localized electrons at Sm+3 sites.
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