Abstract
Vectorial optical fields (VOFs) exhibiting arbitrarily designed wavefronts and polarization distributions are highly desired in photonics. However, current methods to generate them either require complicated setups or exhibit limited functionalities, which is unfavorable for integration-optics applications. Here, we propose a generic approach to efficiently generate arbitrary VOFs based on metasurfaces exhibiting full-matrix yet inhomogeneous Jones-matrix distributions. We illustrate our strategy with analytical calculations on a model system and an experimental demonstration of a meta-device that can simultaneously deflect light and manipulate its polarization. Based on these benchmark results, we next experimentally demonstrate the generation of a far-field VOF exhibiting both a vortex wavefront and an inhomogeneous polarization distribution. Finally, we design/fabricate a meta-device and experimentally demonstrate that it can generate a complex near-field VOF—a cylindrically polarized surface plasmon wave possessing orbital angular momentum—with an efficiency of ~34%. Our results establish an efficient and ultracompact platform for generating arbitrary predesigned VOFs in both the near- and far-fields, which may find many applications in optical manipulation and communications.
Highlights
Light beams are widely used in photonics applications
To experimentally characterize the optical properties of the meta-atom, we illuminate the sample by normally incident LP light with an E vector lying at 45° with respect to the u axis and measure the signals reflected by the sample filtered by a 360° rotatable linear polarizer placed in front of our detector
Placing a rotatable linear polarizer in front of the charge-coupled device (CCD), we find that the measured polarizer-filtered intensity patterns are highly inhomogeneous and completely different as the polarizer is rotated to different angles
Summary
Light beams are widely used in photonics applications (e.g., sensing, optical trapping and manipulation). We experimentally demonstrate the generation of a far-field VOF exhibiting a vortex wavefront with an inhomogeneous distribution of elliptical polarizations.
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