论文信息 - 29Si NMR Studies of an “Unusual” Paramagnet FeSi–Anderson Localized State Model–

29Si NMR Studies of an “Unusual” Paramagnet FeSi–Anderson Localized State Model–

29 Si NMR as well as magnetic susceptibility and electrical resistivity measurements have been performed on an “unusual” paramagnet FeSi. It is shown that the observed low temperature properties–such as the asymmetric shape of the 29 Si spin-echo spectrum and the exp ( T -1/4 ) type temperature dependence of the resistivity–can be explained consistently by considering the existence of the Anderson localized states (caused presumably by some residual imperfections of the crystal) with intra-state correlation. At higher temperatures, it is suggested from the temperature dependences of the 29 Si spin-lattice relaxation time and the resistivity that the thermodynamical properties are governed by the correlated modes of spin fluctuations with strongly temperature-dependent amplitude.

S. Ogawa | S. Takagi | H. Yasuoka | Jack Harry Wernick

[1] T. Yamazaki,et al. μ− and doped27Al NMR studies of FeSi , 1981 .

[2] T. Moriya,et al. A Theory of Nearly Ferromagnetic Semiconductors , 1979 .

[3] H. Fukuyama,et al. Negative Magnetoresistance in the Anderson Localized States. II. Effect of Electron Correlations , 1979 .

[4] W. Sasaki,et al. NMR Study on Electronic States in Phosphorus Doped Silicon , 1978 .

[5] E. Yamaguchi,et al. Electron correlation effects on Anderson localized states , 1978 .

[6] T. Moriya,et al. Spin Fluctuation Theory of Itinerant Electron Ferromagnetism –A Unified Picture , 1978 .

[7] T. Moriya. Temperature-induced local magnetic moment in narrow band electron systems , 1978 .

[8] Yoji Nakamura,et al. Magnetic Properties of (Fe1-xCox)Si , 1976 .

[9] L. Walker,et al. Paramagnetic Excited State of FeSi , 1967 .

[10] R. Wolfe,et al. Thermoelectric properties of FeSi , 1965 .

[11] R. Sherwood,et al. Unusual electronic properties of FeSi , 1965 .

[12] Hiroshi Watanabe,et al. Neutron Diffraction Study of the Intermetallic Compound FeSi , 1963 .