期刊
PHOTONICS RESEARCH
卷 8, 期 6, 页码 963-971出版社
OPTICAL SOC AMER
DOI: 10.1364/PRJ.388838
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资金
- Program of Fundamental Research of Science and Technology Planning Project of Shenzhen Municipality [JCYJ20180507182035270]
- Science and Technology Planning Project of Guangdong Province [2016B050501005]
- Science and Technology Project of Shenzhen [ZDSYS201707271014468]
- International Collaborative Laboratory of 2D Materials for Optoelectronics Science and Technology [2DMOST2018003]
- National Natural Science Foundation of China [61805087, 61805149]
- Natural Science Foundation of Guangdong Province [2016A030310065, 2018A030313368, 2020A1515011392]
Photonic spin Hall effect (SHE) provides new opportunities for achieving spin-based photonics applications. However, flexibly manipulating the spin-dependent splitting (SDS) of photonic SHE and imposing extra phase modulation on the two spin components are always a challenge. Here, a controllable SHE mechanism based on phase function construction is reported. It is concluded that the phases with specific functional structures performing a coordinate translation are equivalent to integrating a gradient phase to the original phases. Hence, the original phase can be used for independent phase modulation, and the gradient phase originating from the coordinate translation is capable of manipulating the SDS. A metasurface with Pancharatnam-Berry phase that can impose conjugate phases to the two spin components of light is fabricated to verify this mechanism. By shifting the light position, the SDS is continuously manipulated in the visible region, which is successfully used for detecting the polarization ellipticity. The extra phase modulation is also performed with the original phase and thus enables measuring singular beams. It is anticipated that the controllable SHE manipulation method may open new avenues in the fields of spin photonics, optical sensing, optical communications, etc. (C) 2020 Chinese Laser Press
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