Plasmonic metasurfaces for four-fold polarization conversion and enhanced planar photon spin Hall effect

• الحاوية / القاعدة: Nano Express
• المؤلفون الرئيسيون: Dustin T Roberts, Harrison Knox, Seyed M Sadeghi, Rithvik R Gutha, Ryan Goul, Seyed A Maroufian, Judy Wu
• التنسيق: مقال
• اللغة: الإنجليزية
• منشور في: IOP Publishing 2025-01-01
• الموضوعات: plasmonic; metasurfaces; polarizations; conversion; enhanced; planar
• الوصول للمادة أونلاين: https://doi.org/10.1088/2632-959X/adfaa6

Plasmonic metastructures have become valuable platforms for manipulating light based on polarization. While traditional approaches have focused on sorting light through front- or back-scattering, recent advances underscore the potential of in-plane light routing—guiding and separating photons across the surface of the metastructure itself. In this study, we investigate how lateral asymmetry in nanoantenna design—introduced along the direction of in-plane light propagation rather than the axis of illumination—can be leveraged for efficient polarization sorting. We focus on metasurfaces composed of arrays of both symmetric and asymmetric gold nanoantennas. Our results reveal that such structural asymmetry enables two distinct modes of operation: in one, photons with different polarizations are directed along separate in-plane paths; in the other, they follow the same axis but are emitted at different angles depending on their polarization. We further examine the spectral dependence of this sorting behavior and demonstrate that asymmetric metastructures can realize four-way polarization sorting, each with unique anisotropic characteristics. Our simulation results provide insight into how phase modulation of the scattered light—coupled into the substrate beneath the metasurface—is influenced by nanoantenna asymmetry. These findings pave the way for compact, on-chip implementations of the planar spin Hall effect and for simplified metasurfaces suited to sensing, optical switching, and beam steering applications.