期刊
NANOPHOTONICS
卷 9, 期 2, 页码 351-360出版社
WALTER DE GRUYTER GMBH
DOI: 10.1515/nanoph-2019-0378
关键词
2D materials; metasurface; plasmonics; second harmonic generation; transition metal dichalcogenide monolayer
资金
- European Union's Horizon 2020 research and innovation -program [724306]
- NSFC-DFG Joint Research -Program [DFG ZE953/11-1, 61861136010]
- National Natural -Science Foundation of China [61775019]
- Beijing Outstanding Young Scientist Program [BJJWZYJH01201910007022]
The nonlinear processes of frequency conversion such as second harmonic generation (SHG) usually obey certain selection rules, resulting from the preservation of different kinds of physical quantities, e.g. the angular momentum. For the SHG created by a monolayer of transition-metal dichalcogenides (TMDCs) such as WS2, the valley-exciton locked selection rule predicts an SHG signal in the cross-polarization state. By combining plasmonic nanostructures with a monolayer of TMDC, a hybrid meta-surface is realized, which affects this nonlinear process because of an additional polarization conversion process. Here, we observe that the plasmonic metasurface modifies the light-matter interaction with the TMDC, resulting in an SHG signal that is co-polarized with respect to the incident field, which is usually forbidden for the monolayers of TMDC. We fabricate such hybrid metasurfaces by placing plasmonic nanorods on top of a monolayer WS2 and study the valley-exciton locked SHG emission from such system for different parameters, such as wavelength and polarization. Furthermore, we show the potential of the hybrid metasurface for tailoring nonlinear processes by adding additional phase information to the SHG signal using the Pancharatnam-Berry phase effect. This allows direct tailoring of the SHG emission to the far-field.
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