Coexistence of universal and topological anomalous hall effects in metal CrO2 thin films in the dirty limit

W. R. Branford; K. A. Yates; E. Barkhoudarov; J. D. Moore; K. Morrison; F. Magnus; Y. Miyoshi; P. M. Sousa; O. Conde; A. J. Silvestre; L. F. Cohen

doi:10.1103/PhysRevLett.102.227201

Coexistence of universal and topological anomalous hall effects in metal CrO2 thin films in the dirty limit

W. R. Branford
, K. A. Yates
, E. Barkhoudarov
, J. D. Moore
, K. Morrison
, F. Magnus
, Y. Miyoshi
, P. M. Sousa
, O. Conde
, A. J. Silvestre
, L. F. Cohen

Science Institute

University of Iceland

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

Abstract

The scaling exponent of 1.6 between anomalous Hall and longitudinal conductivity, characteristic of the universal Hall mechanism in dirty-metal ferromagnets, emerges from a series of CrO2 films as we systematically increase structural disorder. Magnetic disorder in CrO2 increases with temperature and this drives a separate topological Hall mechanism. We find that these terms are controlled discretely by structural and magnetic defect populations, and their coexistence leads to apparent divergence from exponent 1.6, suggesting that the universal term is more prevalent than previously realized.

Original language	English
Article number	227201
Journal	Physical Review Letters
Volume	102
Issue number	22
DOIs	https://doi.org/10.1103/PhysRevLett.102.227201
Publication status	Published - 5 Jun 2009

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Branford, W. R., Yates, K. A., Barkhoudarov, E., Moore, J. D., Morrison, K., Magnus, F., Miyoshi, Y., Sousa, P. M., Conde, O., Silvestre, A. J., & Cohen, L. F. (2009). Coexistence of universal and topological anomalous hall effects in metal CrO2 thin films in the dirty limit. Physical Review Letters, 102(22), Article 227201. https://doi.org/10.1103/PhysRevLett.102.227201

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title = "Coexistence of universal and topological anomalous hall effects in metal CrO2 thin films in the dirty limit",

abstract = "The scaling exponent of 1.6 between anomalous Hall and longitudinal conductivity, characteristic of the universal Hall mechanism in dirty-metal ferromagnets, emerges from a series of CrO2 films as we systematically increase structural disorder. Magnetic disorder in CrO2 increases with temperature and this drives a separate topological Hall mechanism. We find that these terms are controlled discretely by structural and magnetic defect populations, and their coexistence leads to apparent divergence from exponent 1.6, suggesting that the universal term is more prevalent than previously realized.",

author = "Branford, \{W. R.\} and Yates, \{K. A.\} and E. Barkhoudarov and Moore, \{J. D.\} and K. Morrison and F. Magnus and Y. Miyoshi and Sousa, \{P. M.\} and O. Conde and Silvestre, \{A. J.\} and Cohen, \{L. F.\}",

year = "2009",

month = jun,

day = "5",

doi = "10.1103/PhysRevLett.102.227201",

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AU - Branford, W. R.

AU - Yates, K. A.

AU - Barkhoudarov, E.

AU - Moore, J. D.

AU - Morrison, K.

AU - Magnus, F.

AU - Miyoshi, Y.

AU - Sousa, P. M.

AU - Conde, O.

AU - Silvestre, A. J.

AU - Cohen, L. F.

PY - 2009/6/5

Y1 - 2009/6/5

N2 - The scaling exponent of 1.6 between anomalous Hall and longitudinal conductivity, characteristic of the universal Hall mechanism in dirty-metal ferromagnets, emerges from a series of CrO2 films as we systematically increase structural disorder. Magnetic disorder in CrO2 increases with temperature and this drives a separate topological Hall mechanism. We find that these terms are controlled discretely by structural and magnetic defect populations, and their coexistence leads to apparent divergence from exponent 1.6, suggesting that the universal term is more prevalent than previously realized.

AB - The scaling exponent of 1.6 between anomalous Hall and longitudinal conductivity, characteristic of the universal Hall mechanism in dirty-metal ferromagnets, emerges from a series of CrO2 films as we systematically increase structural disorder. Magnetic disorder in CrO2 increases with temperature and this drives a separate topological Hall mechanism. We find that these terms are controlled discretely by structural and magnetic defect populations, and their coexistence leads to apparent divergence from exponent 1.6, suggesting that the universal term is more prevalent than previously realized.

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DO - 10.1103/PhysRevLett.102.227201

M3 - Article

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VL - 102

JO - Physical Review Letters

JF - Physical Review Letters

IS - 22

M1 - 227201

ER -

Coexistence of universal and topological anomalous hall effects in metal CrO2 thin films in the dirty limit

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