Publication detail

Magnetic and transport properties of Sb(2-x)Fe(x)Te(3) (0<x<0.02)

Authors: Zhou Zhenhua | Žabčík Marek | Lošťák Petr | Uher Ctirad

Year: 2006

Type of publication: článek v odborném periodiku

Name of source: Journal of Applied Physics

Publisher name: American Institute of Physics

Place: Melville

Page from-to: 043901-1-4

Titles:

Language	Name	Abstract	Keywords
cze	Magnetic and transport properties of Sb(2-x)Fe(x)Te(3) (0<x<0.02)	Magnetization, electrical resistivity and Hall coefficient of single crystals Sb2-xFexTe3 (0<x<0.02) have been measured from 1.8 K to 300 K. Upon doping with Fe, the otherwise diamagnetic Sb2Te3 matrix becomes paramagnetic with contributions arising from the Curie-type and Van Vleck-type paramagnetisms. In contrast to the influence of Fe in Bi2Te3, we detect no presence of a magnetically ordered phase in Fe-doped Sb2Te3 down to 1.8 K. Doping with Fe appears to increase the concentration of holes in relation to the case of pure Sb2Te3 and the electrical resistivity increases throughout the temperature range studied.
eng	Magnetic and transport properties of Sb(2-x)Fe(x)Te(3) (0<x<0.02)	Magnetization, electrical resistivity and Hall coefficient of single crystals Sb2-xFexTe3 (0<x<0.02) have been measured from 1.8 K to 300 K. Upon doping with Fe, the otherwise diamagnetic Sb2Te3 matrix becomes paramagnetic with contributions arising from the Curie-type and Van Vleck-type paramagnetisms. In contrast to the influence of Fe in Bi2Te3, we detect no presence of a magnetically ordered phase in Fe-doped Sb2Te3 down to 1.8 K. Doping with Fe appears to increase the concentration of holes in relation to the case of pure Sb2Te3 and the electrical resistivity increases throughout the temperature range studied.	Magnetic and transport properties

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