Extraordinary Hall effect and ferromagnetism in Fe-doped reduced rutile

Wang, Zhenjun; Wang, Wendong; Tang, Jinke; Tung, Le Duc; Spînu, Leonard; Zhou, Weilie

doi:10.1063/1.1593825

Cited by 148 publications

(92 citation statements)

References 22 publications

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“…Only recently, different groups including ours, observed the AHE in highly reduced rutile TiO 2 films doped with either Fe or Co, raising optimism about the possibility of an intrinsic nature of ferromagnetism therein [11][12][13]. This situation clearly calls for detailed magnetic and microstructural studies of these films to establish or refute the premise of a strict connection between the AHE and the intrinsic nature of DMS ferromagnetism.…”

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confidence: 99%

Co-occurrence of Superparamagnetism and Anomalous Hall Effect in Highly Reduced Cobalt-Doped RutileTiO2−δFilms

et al. 2004

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We report a detailed magnetic and structural analysis of highly reduced Co doped rutile TiO 2-δ films displaying an anomalous Hall effect (AHE). The temperature and field dependence of magnetization, and transmission electron microscopy clearly establish the presence of nano-sized superparamagnetic cobalt clusters of ~8-10 nm size in the films at the interface. The co-occurrence of superparamagnetism and AHE raises questions regarding the use of the AHE as a test of the intrinsic nature of ferromagnetism in diluted magnetic semiconductors.

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confidence: 99%

Co-occurrence of Superparamagnetism and Anomalous Hall Effect in Highly Reduced Cobalt-Doped RutileTiO2−δFilms

et al. 2004

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“…Many materials have been found, which could be considered as good candidates for DMS applications. [2][3][4][5][6] However, due to the small solubility of magnetic ions in the host semiconductor, ferromagnetism in some cases is attributed to the clusters of dopants formed during the sample preparation procedure. [7][8][9] Therefore, new diluted magnetic semiconductors based on host semiconductors with high solubility of transition metal ions are highly desirable.…”

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confidence: 99%

Room-temperature ferromagnetism in Mn and Fe codoped In2O3

Peleckis

Wang

Dou

2006

Applied Physics Letters

101

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The synthesis and characterization of polycrystalline room-temperature ferromagnetic semiconductor (In0.9Fe0.1−xMnx)2O3 (x=0–0.1) oxide are reported. All of the samples with intermediate x values are ferromagnetic at room temperature. The highest saturation magnetization moment at 300K per total amount of magnetic ion is reached in the (In0.9Fe0.04Mn0.06)2O3 sample. The lattice constant a increases linearly with increasing Mn content. Fe-only doped samples were paramagnetic, while a Mn-only doped sample was found to be ferromagnetic below TC=46K.

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“…V-doped anatase TiO 2 was reported to be ferromagnetic at room temperature [129]. Fe-doped rutile TiO 2 was reported to be ferromagnetic over room temperature [130][131][132][133] and to show anomalous Hall effect at room temperature [131,132]. Fe-doped anatase TiO 2 was reported to be ferromagnetic at room temperature [134,135].…”

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confidence: 99%

Magnetic Oxide Semiconductors

2006

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Magnetic oxide semiconductors, oxide semiconductors doped with transition metal elements, are one of the candidates for a high Curie temperature ferromagnetic semiconductor that is important to realize semiconductor spintronics at room temperature. We review in this paper recent progress of researches on various magnetic oxide semiconductors. The magnetization, magneto-optical effect, and magneto-transport such as anomalous Hall effect are examined from viewpoint of feasibility to evaluate the ferromagnetism. The ferromagnetism of Co-doped TiO 2 and transition metal-doped ZnO is discussed.

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Extraordinary Hall effect and ferromagnetism in Fe-doped reduced rutile

Cited by 148 publications

References 22 publications

Co-occurrence of Superparamagnetism and Anomalous Hall Effect in Highly Reduced Cobalt-Doped RutileTiO2−δFilms

Co-occurrence of Superparamagnetism and Anomalous Hall Effect in Highly Reduced Cobalt-Doped RutileTiO2−δFilms

Room-temperature ferromagnetism in Mn and Fe codoped In2O3

Magnetic Oxide Semiconductors

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