Probing magnetic-proximity-effect enlarged valley splitting in monolayer WSe2 by photoluminescence
Possessing a valley degree of freedom and potential in information processing by manipulating valley features (such as valley splitting), group-VI monolayer transition metal dichalcogenides have attracted enormous interest. This valley splitting can be measured based on the difference between the pe...
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sg-ntu-dr.10356-1411792020-06-04T09:19:13Z Probing magnetic-proximity-effect enlarged valley splitting in monolayer WSe2 by photoluminescence Zou, Chenji Cong, Chunxiao Shang, Jingzhi Zhao, Chuan Eginligil, Mustafa Wu, Lishu Chen, Yu Zhang, Hongbo Feng, Shun Zhang, Jing Zeng, Hao Huang, Wei Yu, Ting School of Physical and Mathematical Sciences Science::Physics Valley Splitting Transition Metal Dichalcogenides Possessing a valley degree of freedom and potential in information processing by manipulating valley features (such as valley splitting), group-VI monolayer transition metal dichalcogenides have attracted enormous interest. This valley splitting can be measured based on the difference between the peak energies of σ+ and σ− polarized emissions for excitons or trions in direct band gap monolayer transition metal dichalcogenides under perpendicular magnetic fields. In this work, a well-prepared heterostructure is formed by transferring exfoliated WSe2 onto a EuS substrate. Circular-polarization-resolved photoluminescence spectroscopy, one of the most facile and intuitive methods, is used to probe the difference of the gap energy in two valleys under an applied out-of-plane external magnetic field. Our results indicate that valley splitting can be enhanced when using a EuS substrate, as compared to a SiO2/Si substrate. The enhanced valley splitting of the WSe2/EuS heterostructure can be understood as a result of an interfacial magnetic exchange field originating from the magnetic proximity effect. The value of this magnetic exchange field, based on our estimation, is approximately 9 T. Our findings will stimulate further studies on the magnetic exchange field at the interface of similar heterostructures. MOE (Min. of Education, S’pore) 2020-06-04T09:19:13Z 2020-06-04T09:19:13Z 2018 Journal Article Zou, C., Cong, C., Shang, J., Zhao, C., Eginligil, M., Wu, L., . . . Yu, T. (2018). Probing magnetic-proximity-effect enlarged valley splitting in monolayer WSe2 by photoluminescence. Nano Research, 11(12), 6252-6259. doi:10.1007/s12274-018-2148-z 1998-0124 https://hdl.handle.net/10356/141179 10.1007/s12274-018-2148-z 2-s2.0-85050922739 12 11 6252 6259 en Nano Research © 2018 Tsinghua University Press and Springer-Verlag GmbH Germany, part of Springer Nature. All rights reserved. |
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Science::Physics Valley Splitting Transition Metal Dichalcogenides Zou, Chenji Cong, Chunxiao Shang, Jingzhi Zhao, Chuan Eginligil, Mustafa Wu, Lishu Chen, Yu Zhang, Hongbo Feng, Shun Zhang, Jing Zeng, Hao Huang, Wei Yu, Ting Probing magnetic-proximity-effect enlarged valley splitting in monolayer WSe2 by photoluminescence |
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Possessing a valley degree of freedom and potential in information processing by manipulating valley features (such as valley splitting), group-VI monolayer transition metal dichalcogenides have attracted enormous interest. This valley splitting can be measured based on the difference between the peak energies of σ+ and σ− polarized emissions for excitons or trions in direct band gap monolayer transition metal dichalcogenides under perpendicular magnetic fields. In this work, a well-prepared heterostructure is formed by transferring exfoliated WSe2 onto a EuS substrate. Circular-polarization-resolved photoluminescence spectroscopy, one of the most facile and intuitive methods, is used to probe the difference of the gap energy in two valleys under an applied out-of-plane external magnetic field. Our results indicate that valley splitting can be enhanced when using a EuS substrate, as compared to a SiO2/Si substrate. The enhanced valley splitting of the WSe2/EuS heterostructure can be understood as a result of an interfacial magnetic exchange field originating from the magnetic proximity effect. The value of this magnetic exchange field, based on our estimation, is approximately 9 T. Our findings will stimulate further studies on the magnetic exchange field at the interface of similar heterostructures. |
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School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Zou, Chenji Cong, Chunxiao Shang, Jingzhi Zhao, Chuan Eginligil, Mustafa Wu, Lishu Chen, Yu Zhang, Hongbo Feng, Shun Zhang, Jing Zeng, Hao Huang, Wei Yu, Ting |
| format |
Article |
| author |
Zou, Chenji Cong, Chunxiao Shang, Jingzhi Zhao, Chuan Eginligil, Mustafa Wu, Lishu Chen, Yu Zhang, Hongbo Feng, Shun Zhang, Jing Zeng, Hao Huang, Wei Yu, Ting |
| author_sort |
Zou, Chenji |
| title |
Probing magnetic-proximity-effect enlarged valley splitting in monolayer WSe2 by photoluminescence |
| title_short |
Probing magnetic-proximity-effect enlarged valley splitting in monolayer WSe2 by photoluminescence |
| title_full |
Probing magnetic-proximity-effect enlarged valley splitting in monolayer WSe2 by photoluminescence |
| title_fullStr |
Probing magnetic-proximity-effect enlarged valley splitting in monolayer WSe2 by photoluminescence |
| title_full_unstemmed |
Probing magnetic-proximity-effect enlarged valley splitting in monolayer WSe2 by photoluminescence |
| title_sort |
probing magnetic-proximity-effect enlarged valley splitting in monolayer wse2 by photoluminescence |
| publishDate |
2020 |
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https://hdl.handle.net/10356/141179 |
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1681058367636766720 |