Intrinsic Ferromagnetism in the Diluted Magnetic Semiconductor Co:TiO2

H. Saadaoui; X. Luo; Z. Salman; X. Y. Cui; N. N. Bao; P. Bao; R. K. Zheng; L. T. Tseng; Y. H. Du; T. Prokscha; A. Suter; T. Liu; Y. R. Wang; S. Li; J. Ding; S. P. Ringer; E. Morenzoni; J. B. Yi

doi:10.1103/PhysRevLett.117.227202

Intrinsic Ferromagnetism in the Diluted Magnetic Semiconductor Co:TiO2

H. Saadaoui
, X. Luo
, Z. Salman
, X. Y. Cui
, N. N. Bao
, P. Bao
, R. K. Zheng
, L. T. Tseng
, Y. H. Du
, T. Prokscha
, A. Suter
, T. Liu
, Y. R. Wang
, S. Li
, J. Ding
, S. P. Ringer
, E. Morenzoni
, J. B. Yi

Research output: Contribution to journal › Article › peer-review

72 Scopus citations

Abstract

Here we present a study of magnetism in Co0.05Ti0.95O2-δ anatase films grown by pulsed laser deposition under a variety of oxygen partial pressures and deposition rates. Energy-dispersive spectrometry and transmission electron microscopy analyses indicate that a high deposition rate leads to a homogeneous microstructure, while a very low rate or postannealing results in cobalt clustering. Depth resolved low-energy muon spin rotation experiments show that films grown at a low oxygen partial pressure (≈10-6 torr) with a uniform structure are fully magnetic, indicating intrinsic ferromagnetism. First principles calculations identify the beneficial role of low oxygen partial pressure in the realization of uniform carrier-mediated ferromagnetism. This work demonstrates that Co:TiO2 is an intrinsic diluted magnetic semiconductor.

Original language	English
Article number	227202
Journal	Physical Review Letters
Volume	117
Issue number	22
DOIs	https://doi.org/10.1103/PhysRevLett.117.227202
State	Published - 23 Nov 2016
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2016 American Physical Society.

ASJC Scopus subject areas

General Physics and Astronomy

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10.1103/PhysRevLett.117.227202

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Saadaoui, H., Luo, X., Salman, Z., Cui, X. Y., Bao, N. N., Bao, P., Zheng, R. K., Tseng, L. T., Du, Y. H., Prokscha, T., Suter, A., Liu, T., Wang, Y. R., Li, S., Ding, J., Ringer, S. P., Morenzoni, E., & Yi, J. B. (2016). Intrinsic Ferromagnetism in the Diluted Magnetic Semiconductor Co:TiO2. Physical Review Letters, 117(22), Article 227202. https://doi.org/10.1103/PhysRevLett.117.227202

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title = "Intrinsic Ferromagnetism in the Diluted Magnetic Semiconductor Co:TiO2",

abstract = "Here we present a study of magnetism in Co0.05Ti0.95O2-δ anatase films grown by pulsed laser deposition under a variety of oxygen partial pressures and deposition rates. Energy-dispersive spectrometry and transmission electron microscopy analyses indicate that a high deposition rate leads to a homogeneous microstructure, while a very low rate or postannealing results in cobalt clustering. Depth resolved low-energy muon spin rotation experiments show that films grown at a low oxygen partial pressure (≈10-6 torr) with a uniform structure are fully magnetic, indicating intrinsic ferromagnetism. First principles calculations identify the beneficial role of low oxygen partial pressure in the realization of uniform carrier-mediated ferromagnetism. This work demonstrates that Co:TiO2 is an intrinsic diluted magnetic semiconductor.",

author = "H. Saadaoui and X. Luo and Z. Salman and Cui, \{X. Y.\} and Bao, \{N. N.\} and P. Bao and Zheng, \{R. K.\} and Tseng, \{L. T.\} and Du, \{Y. H.\} and T. Prokscha and A. Suter and T. Liu and Wang, \{Y. R.\} and S. Li and J. Ding and Ringer, \{S. P.\} and E. Morenzoni and Yi, \{J. B.\}",

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doi = "10.1103/PhysRevLett.117.227202",

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AU - Saadaoui, H.

AU - Luo, X.

AU - Salman, Z.

AU - Cui, X. Y.

AU - Bao, N. N.

AU - Bao, P.

AU - Zheng, R. K.

AU - Tseng, L. T.

AU - Du, Y. H.

AU - Prokscha, T.

AU - Suter, A.

AU - Liu, T.

AU - Wang, Y. R.

AU - Li, S.

AU - Ding, J.

AU - Ringer, S. P.

AU - Morenzoni, E.

AU - Yi, J. B.

PY - 2016/11/23

Y1 - 2016/11/23

N2 - Here we present a study of magnetism in Co0.05Ti0.95O2-δ anatase films grown by pulsed laser deposition under a variety of oxygen partial pressures and deposition rates. Energy-dispersive spectrometry and transmission electron microscopy analyses indicate that a high deposition rate leads to a homogeneous microstructure, while a very low rate or postannealing results in cobalt clustering. Depth resolved low-energy muon spin rotation experiments show that films grown at a low oxygen partial pressure (≈10-6 torr) with a uniform structure are fully magnetic, indicating intrinsic ferromagnetism. First principles calculations identify the beneficial role of low oxygen partial pressure in the realization of uniform carrier-mediated ferromagnetism. This work demonstrates that Co:TiO2 is an intrinsic diluted magnetic semiconductor.

AB - Here we present a study of magnetism in Co0.05Ti0.95O2-δ anatase films grown by pulsed laser deposition under a variety of oxygen partial pressures and deposition rates. Energy-dispersive spectrometry and transmission electron microscopy analyses indicate that a high deposition rate leads to a homogeneous microstructure, while a very low rate or postannealing results in cobalt clustering. Depth resolved low-energy muon spin rotation experiments show that films grown at a low oxygen partial pressure (≈10-6 torr) with a uniform structure are fully magnetic, indicating intrinsic ferromagnetism. First principles calculations identify the beneficial role of low oxygen partial pressure in the realization of uniform carrier-mediated ferromagnetism. This work demonstrates that Co:TiO2 is an intrinsic diluted magnetic semiconductor.

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DO - 10.1103/PhysRevLett.117.227202

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JF - Physical Review Letters

IS - 22

M1 - 227202

ER -

Intrinsic Ferromagnetism in the Diluted Magnetic Semiconductor Co:TiO2

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