期刊
NANOPHOTONICS
卷 11, 期 2, 页码 391-404出版社
WALTER DE GRUYTER GMBH
DOI: 10.1515/nanoph-2021-0567
关键词
metasurfaces; opticallattice fields; Pancharatnam-Berry phase; spin components; spin-orbit interactions
资金
- National Natural Science Foundation of China [62175134, 11904212, 12004215]
By manipulating two spin components in metasurfaces, independent wavefield control in primary and converted spin channels is achieved, providing higher optical freedom.
Artificial nanostructures in metasurfaces induce strong spin-orbit interactions (SOIs), by which incident circularly polarized light can be transformed into two opposite spin components. The component with an opposite helicity to the incident light acquires a geometric phase and is used to realize the versatile functions of the metasurfaces; however, the other component, with an identical helicity, is often neglected as a diffused background. Here, by simultaneously manipulating the two spin components originating from the SOI in plasmonic metasurfaces, independent wavefields in the primary and converted spin channels are achieved; the wavefield in the primary channel is controlled by tailoring the dynamic phase, and that in the converted channel is regulated by designing the Pancharatnam-Berry phase in concurrence with the dynamic phase. The scheme is realized by generating optical lattice fields with different topologies in two spin channels, with the metasurfaces composed of metal nanoslits within six round-apertures mimicking the multi-beam interference. This study demonstrates independent optical fields in a dual-spin channel based on the SOI effect in the metasurface, which provides a higher polarization degree of freedom to modify optical properties at the subwavelength scale.
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