Structural, optical and magnetic properties of Fe-doped CeO2 samples probed using X-ray photoelectron spectroscopy

Soni, Swati; Vats, V. S.; Kumar, Sudhish; Dalela, B.; Mishra, Monu; Meena, R. S.; Gupta, Govind; Alvi, P. A.; DALELA, S.

doi:10.1007/s10854-018-9060-x

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Structural, optical and magnetic properties of Fe-doped CeO2 samples probed using X-ray photoelectron spectroscopy

Author(s): Swati Soni , V. S. Vats , Sudhish Kumar , B. Dalela , Monu Mishra , R. S. Meena , Govind Gupta , P. A. Alvi , S. Dalela

Publication date (Electronic): April 10 2018

Journal: Journal of Materials Science: Materials in Electronics

Publisher: Springer Science and Business Media LLC

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Zener model description of ferromagnetism in zinc-blende magnetic semiconductors

Dietl, Ohno, Matsukura … (2000)

Ferromagnetism in manganese compound semiconductors not only opens prospects for tailoring magnetic and spin-related phenomena in semiconductors with a precision specific to III-V compounds but also addresses a question about the origin of the magnetic interactions that lead to a Curie temperature (T(C)) as high as 110 K for a manganese concentration of just 5%. Zener's model of ferromagnetism, originally proposed for transition metals in 1950, can explain T(C) of Ga(1-)(x)Mn(x)As and that of its II-VI counterpart Zn(1-)(x)Mn(x)Te and is used to predict materials with T(C) exceeding room temperature, an important step toward semiconductor electronics that use both charge and spin.