Valley polarization in MoS2 monolayers by optical pumping
Most electronic devices exploit the electric charge of electrons, but it is also possible to build devices that rely on other properties of electrons. Spintronic devices, for example, make use of the spin of electrons 1 , 2 . Valleytronics is a more recent development that relies on the fact that th...
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| Published in: | Nature nanotechnology Vol. 7; no. 8; pp. 490 - 493 |
|---|---|
| Main Authors: | , , , , |
| Format: | Journal Article |
| Language: | English |
| Published: |
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Nature Publishing Group UK
01-08-2012
Nature Publishing Group |
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| Abstract | Most electronic devices exploit the electric charge of electrons, but it is also possible to build devices that rely on other properties of electrons. Spintronic devices, for example, make use of the spin of electrons
1
,
2
. Valleytronics is a more recent development that relies on the fact that the conduction bands of some materials have two or more minima at equal energies but at different positions in momentum space
3
,
4
,
5
. To make a valleytronic device it is necessary to control the number of electrons in these valleys, thereby producing a valley polarization
6
,
7
,
8
,
9
,
10
,
11
. Single-layer MoS
2
is a promising material for valleytronics because both the conduction and valence band edges have two energy-degenerate valleys at the corners of the first Brillouin zone
12
. Here, we demonstrate that optical pumping with circularly polarized light can achieve a valley polarization of 30% in pristine monolayer MoS
2
. Our results, and similar results by Mak
et al.
13
, demonstrate the viability of optical valley control and valley-based electronic and optoelectronic applications in MoS
2
monolayers.
Circularly polarized light has been used to achieve a valley polarization of 30% in single-layer molybdenum disulphide. |
|---|---|
| AbstractList | Most electronic devices exploit the electric charge of electrons, but it is also possible to build devices that rely on other properties of electrons. Spintronic devices, for example, make use of the spin of electrons. Valleytronics is a more recent development that relies on the fact that the conduction bands of some materials have two or more minima at equal energies but at different positions in momentum space. To make a valleytronic device it is necessary to control the number of electrons in these valleys, thereby producing a valley polarization. Single-layer MoS(2) is a promising material for valleytronics because both the conduction and valence band edges have two energy-degenerate valleys at the corners of the first Brillouin zone. Here, we demonstrate that optical pumping with circularly polarized light can achieve a valley polarization of 30% in pristine monolayer MoS(2). Our results, and similar results by Mak et al., demonstrate the viability of optical valley control and valley-based electronic and optoelectronic applications in MoS(2) monolayers. Most electronic devices exploit the electric charge of electrons, but it is also possible to build devices that rely on other properties of electrons. Spintronic devices, for example, make use of the spin of electrons 1 , 2 . Valleytronics is a more recent development that relies on the fact that the conduction bands of some materials have two or more minima at equal energies but at different positions in momentum space 3 , 4 , 5 . To make a valleytronic device it is necessary to control the number of electrons in these valleys, thereby producing a valley polarization 6 , 7 , 8 , 9 , 10 , 11 . Single-layer MoS 2 is a promising material for valleytronics because both the conduction and valence band edges have two energy-degenerate valleys at the corners of the first Brillouin zone 12 . Here, we demonstrate that optical pumping with circularly polarized light can achieve a valley polarization of 30% in pristine monolayer MoS 2 . Our results, and similar results by Mak et al. 13 , demonstrate the viability of optical valley control and valley-based electronic and optoelectronic applications in MoS 2 monolayers. Circularly polarized light has been used to achieve a valley polarization of 30% in single-layer molybdenum disulphide. |
| Author | Dai, Junfeng Zeng, Hualing Cui, Xiaodong Xiao, Di Yao, Wang |
| Author_xml | – sequence: 1 givenname: Hualing surname: Zeng fullname: Zeng, Hualing organization: Physics Department, The University of Hong Kong – sequence: 2 givenname: Junfeng surname: Dai fullname: Dai, Junfeng organization: Physics Department, The University of Hong Kong, Department of Physics, South University of Science and Technology of China – sequence: 3 givenname: Wang surname: Yao fullname: Yao, Wang organization: Physics Department, The University of Hong Kong, Center of Theoretical and Computational Physics, The University of Hong Kong – sequence: 4 givenname: Di surname: Xiao fullname: Xiao, Di organization: Materials Science and Technology Division, Oak Ridge National Laboratory – sequence: 5 givenname: Xiaodong surname: Cui fullname: Cui, Xiaodong email: xdcui@hku.hk organization: Physics Department, The University of Hong Kong |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/22706701$$D View this record in MEDLINE/PubMed |
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| Title | Valley polarization in MoS2 monolayers by optical pumping |
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