Title :
Comparison of Magnetism and Transport Properties in Fe/X (X = C, Si, Ge) Films
Author :
Xiao-Li Li ; Ya-Lei Wang ; Juan Jia ; Jie Li ; Xiao-Hong Xu
Author_Institution :
Key Lab. of Magn. Mol. & Magn. Inf. Mater., Shanxi Normal Univ., Linfen, China
Abstract :
The Fe/X (X = C, Si, Ge) films were deposited on glass substrates by magnetron sputtering, and then they were annealed in vacuum. Their magnetic and transport properties are compared. For Fe/C films, the annealing process gives rise to the enhancement of saturation magnetization, the increase of the Fe particle size, and the reduction of the magnetoresistance (MR). For Fe/Si films, the annealing process causes the appearance of the Fe particles and the enhancement of MR. For Fe/Ge films, no Fe particles can be formed in the films. The unsaturated MR was observed in the as-deposited Fe/Ge film. Thus, the microstructures, magnetism, and transport properties can be tuned by the group-IV elements and the postannealing process. This paper may be beneficial to the group-IV-based spintronics.
Keywords :
annealing; carbon; crystal microstructure; elemental semiconductors; germanium; iron; magnetic thin films; magnetisation; magnetoresistance; particle size; silicon; sputter deposition; Fe-C; Fe-Ge; Fe-Si; SiO2; glass substrates; group-IV elements; group-IV-based spintronics; magnetic properties; magnetism; magnetoresistance; magnetron sputtering; microstructures; particle size; postannealing process; saturation magnetization; transport properties; Annealing; Films; Iron; Magnetic properties; Magnetic tunneling; Saturation magnetization; Silicon; Annealing; annealing; magnetoresistance; magnetoresistance (MR); saturation magnetization;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2015.2437898
