Publications by authors named "Suyang Ge"
Metasurface polarization optics have attracted considerable attention due to their ability to manipulate independently the wave fronts of different polarization channels with subwavelength scale. Previous methods mainly focused on the condition of complete polarization conversion, restricting the application range of metasurface polarization multiplexing. Here, we proposed a generalized framework of phase manipulation for the metasurface polarization optics, which can realize independent phase control and arbitrary energy distribution of different polarization channels for the arbitrary polarization conversion efficiency.
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- Diffraction-limited focusing imaging, edge-enhanced imaging, and long depth of focus imaging are important for applications like biological microscopy and surface analysis.
- Traditional microscopes are bulky and complex, requiring multiple optical components to switch between imaging functions, leading to instability.
- This study introduces a compact polarization-multiplexed tri-functional metasurface that allows users to easily switch imaging functions by changing the polarization of light, offering new possibilities for multifunctional imaging in biomedicine.
Chip-scale optical tweezers, which are usually implemented in a planar format without using bulky diffractive optical elements, are recognized as a promising candidate to be integrated with a lab-on-a-chip system. However, traditional chip-scale optical tweezers are often static and allow for only one type of manipulation functionality since the geometrical parameters of the tweezers are fixed. Herein, we introduce a new, to the best of our knowledge, class of on-chip optical tweezers for diverse types of manipulation of micro-particles.
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