Quadratic to linear magnetoresistance tuning in TmB 4
The change of a material's electrical resistance (R) in response to an external magnetic field (B) provides subtle information for the characterization of its electronic properties and has found applications in sensor and storage related technologies. In good metals, Boltzmann's theory pre...
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sg-ntu-dr.10356-1026422023-02-28T19:23:14Z Quadratic to linear magnetoresistance tuning in TmB 4 Mitra, Sreemanta Kang, Jeremy Goh Swee Shin, John Ng, Jin Quan Sunku, Sai Swaroop Kong, Tai Canfield, Paul C. Shastry, B. Sriram Sengupta, Pinaki Panagopoulos, Christos School of Physical and Mathematical Sciences DRNTU::Science::Physics Anisotropic Magnetoresistance Magnetotransport The change of a material's electrical resistance (R) in response to an external magnetic field (B) provides subtle information for the characterization of its electronic properties and has found applications in sensor and storage related technologies. In good metals, Boltzmann's theory predicts a quadratic growth in magnetoresistance (MR) at low B and saturation at high fields. On the other hand, a number of nonmagnetic materials with weak electronic correlation and low carrier concentration for metallicity, such as inhomogeneous conductors, semimetals, narrow gap semiconductors and topological insulators, and two dimensional electron gas, show positive, nonsaturating linear magnetoresistance (LMR). However, observation of LMR in single crystals of a good metal is rare. Here we present low-temperature, angle-dependent magnetotransport in single crystals of the antiferromagnetic metal, TmB4. We observe large, positive, and anisotropic MR(B), which can be tuned from quadratic to linear by changing the direction of the applied field. In view of the fact that isotropic, single crystalline metals with large Fermi surface (FS) are not expected to exhibit LMR, we attribute our observations to the anisotropic FS topology of TmB4. Furthermore, the linear MR is found to be temperature independent, suggestive of quantum mechanical origin. NRF (Natl Research Foundation, S’pore) MOE (Min. of Education, S’pore) Published version 2019-03-06T04:27:12Z 2019-12-06T20:58:07Z 2019-03-06T04:27:12Z 2019-12-06T20:58:07Z 2019 Journal Article Mitra, S., Kang, J. G. S., Shin, J., Ng, J. Q., Sunku, S. S., Kong, T., . . . Panagopoulos, C. (2019). Quadratic to linear magnetoresistance tuning in TmB4. Physical Review B, 99(4), 045119-. doi:10.1103/PhysRevB.99.045119 2469-9950 https://hdl.handle.net/10356/102642 http://hdl.handle.net/10220/47775 10.1103/PhysRevB.99.045119 en Physical Review B © 2019 American Physical Society. All rights reserved. This paper was published in Physical Review B and is made available with permission of American Physical Society. 7 p. application/pdf |
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DRNTU::Science::Physics Anisotropic Magnetoresistance Magnetotransport Mitra, Sreemanta Kang, Jeremy Goh Swee Shin, John Ng, Jin Quan Sunku, Sai Swaroop Kong, Tai Canfield, Paul C. Shastry, B. Sriram Sengupta, Pinaki Panagopoulos, Christos Quadratic to linear magnetoresistance tuning in TmB 4 |
| description |
The change of a material's electrical resistance (R) in response to an external magnetic field (B) provides subtle information for the characterization of its electronic properties and has found applications in sensor and storage related technologies. In good metals, Boltzmann's theory predicts a quadratic growth in magnetoresistance (MR) at low B and saturation at high fields. On the other hand, a number of nonmagnetic materials with weak electronic correlation and low carrier concentration for metallicity, such as inhomogeneous conductors, semimetals, narrow gap semiconductors and topological insulators, and two dimensional electron gas, show positive, nonsaturating linear magnetoresistance (LMR). However, observation of LMR in single crystals of a good metal is rare. Here we present low-temperature, angle-dependent magnetotransport in single crystals of the antiferromagnetic metal, TmB4. We observe large, positive, and anisotropic MR(B), which can be tuned from quadratic to linear by changing the direction of the applied field. In view of the fact that isotropic, single crystalline metals with large Fermi surface (FS) are not expected to exhibit LMR, we attribute our observations to the anisotropic FS topology of TmB4. Furthermore, the linear MR is found to be temperature independent, suggestive of quantum mechanical origin. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Mitra, Sreemanta Kang, Jeremy Goh Swee Shin, John Ng, Jin Quan Sunku, Sai Swaroop Kong, Tai Canfield, Paul C. Shastry, B. Sriram Sengupta, Pinaki Panagopoulos, Christos |
| format |
Article |
| author |
Mitra, Sreemanta Kang, Jeremy Goh Swee Shin, John Ng, Jin Quan Sunku, Sai Swaroop Kong, Tai Canfield, Paul C. Shastry, B. Sriram Sengupta, Pinaki Panagopoulos, Christos |
| author_sort |
Mitra, Sreemanta |
| title |
Quadratic to linear magnetoresistance tuning in TmB 4 |
| title_short |
Quadratic to linear magnetoresistance tuning in TmB 4 |
| title_full |
Quadratic to linear magnetoresistance tuning in TmB 4 |
| title_fullStr |
Quadratic to linear magnetoresistance tuning in TmB 4 |
| title_full_unstemmed |
Quadratic to linear magnetoresistance tuning in TmB 4 |
| title_sort |
quadratic to linear magnetoresistance tuning in tmb 4 |
| publishDate |
2019 |
| url |
https://hdl.handle.net/10356/102642 http://hdl.handle.net/10220/47775 |
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1759858117875597312 |