Ptychography retrieval of fully polarized holograms from geometric-phase metasurfaces

Song, Qinghua; Baroni, Arthur; Sawant, Rajath; Ni, Pengpeng; Brändli, Virginie; Chenot, Sébastien; Vézian, S.; Damilano, B.; Mierry, P. de; Khadir, Samira; Ferrand, Patrick; Genevet, Patrice

doi:10.1038/s41467-020-16437-9

Cited by 171 publications

(132 citation statements)

References 34 publications

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“…Meanwhile, vectorial holpgraphy can also be realized by utilizing phase-only metasurfaces [75] or geometric-phase metasurfacces [76]. Equivalent electromagnetic model and gradient-based nonlinear optimization are adopted to achieve complete control of the complex amplitude of electromagnetic field in the region of interest based on high efficiency phase-only metasurfaces [75].…”

Section: Polarization-multiplexed Holographymentioning

confidence: 99%

“…And the polarization can also be manipulated freely by tailoring two orthogonal components of fields simultaneously based on subpixel design strategy in order to obtain holographic images with spatially varied polarization states in microwave frequency. Besides, Song et al [76] demonstrated a full-polarization reconstructed metasurface that can produce arbitrary polarization for wavefront shaping under linear polarized light illuminating in broadband by utilizing geometric phase principle. The proposed method relies on pixelated metasurfaces, in which each pixel acts as a deflector able to encode both the polarization and the holographic phase information for reconstructing holographic images with arbitrary polarization at specific angle.…”

Section: Polarization-multiplexed Holographymentioning

confidence: 99%

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Recent advances in multi-dimensional metasurfaces holographic technologies

2020

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Holography has attracted tremendous interest due to its capability of storing both the amplitude and phase of light field and reproducing vivid three-dimensional scenes. However, the large pixel size, low resolution, small field-of-view (FOV) and limited space-bandwidth of traditional spatial light modulator (SLM) devices restrict the possibility of improving the quality of reconstructed images. With the development of nanofabrication technologies, metasurfaces have shown great potential in manipulating the amplitude, phase, polarization, frequency or simultaneously multiple parameters of output light in ultrashort distance with subwavelength resolution by tailoring the scattering behaviour of consisted nanostructures. Such flexibilities make metasurface a promising candidate for holographic related applications. Here, we review recent progresses in the field of metasurface holography. From the perspective of the fundamental properties of light, we classify the metasurface holography into several categories such as phase-only holography, amplitude-only holography, complex amplitude holography and so on. Then, we introduce the corresponding working principles and design strategies. Meanwhile, some emerging types of metasurface holography such as tunable holography, nonlinear holography, Janus (or directional related) and bilayer metasurfaces holography are also discussed. At last, we make our outlook on metasurface holography and discuss the challenges we may face in the future.

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Section: Polarization-multiplexed Holographymentioning

confidence: 99%

Section: Polarization-multiplexed Holographymentioning

confidence: 99%

Recent advances in multi-dimensional metasurfaces holographic technologies

2020

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“…Elliptical birefringence has also been realized with independent phase manipulation based on elliptical eigenpolarization states, leading to arbitrary polarization conversion under a specified input polarization 42 . In addition, combining the geometric phase with the detour phase can allow simultaneous control of the spatially varying arbitrary polarization and phase profiles, leading to powerful vectorial hologram applications 29 , 34 , 43 . However, all of these metasurface polarization optics require an additional polarizer to generate incident beams with well-defined polarization, precluding their applicability in monolithic polarization generators working directly with unpolarized light.…”

Section: Introductionmentioning

confidence: 99%

Arbitrary polarization conversion dichroism metasurfaces for all-in-one full Poincaré sphere polarizers

et al. 2021

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The control of polarization, an essential property of light, is of broad scientific and technological interest. Polarizers are indispensable optical elements for direct polarization generation. However, arbitrary polarization generation, except that of common linear and circular polarization, relies heavily on bulky optical components such as cascading linear polarizers and waveplates. Here, we present an effective strategy for designing all-in-one full Poincaré sphere polarizers based on perfect arbitrary polarization conversion dichroism and implement it in a monolayer all-dielectric metasurface. This strategy allows preferential transmission and conversion of one polarization state located at an arbitrary position on the Poincaré sphere to its handedness-flipped state while completely blocking its orthogonal state. In contrast to previous methods that were limited to only linear or circular polarization, our method manifests perfect dichroism of nearly 100% in theory and greater than 90% experimentally for arbitrary polarization states. By leveraging this attractive dichroism, our demonstration of the generation of polarization beams located at an arbitrary position on a Poincaré sphere directly from unpolarized light can substantially extend the scope of meta-optics and dramatically promote state-of-the-art nanophotonic devices.

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“…[ 27 ] Another method is exploiting the superposition of the two output circular polarization (CP) beams through two sets of nanopillars with different dimensions and starting orientation angles under linear polarization (LP) incidence. [ 28 ] Both of them are based on super unit cells with spatial superposition of inclusions, which would result in lower efficiency, inferior image quality, and lower space‐bandwidth product. Recently, it is of great interest to combine the propagation phase and geometric phase (i.e., Pancharatnam–Berry [PB] phase) to realize full control of the polarization and phase on a single subwavelength unit cell.…”

Section: Introductionmentioning

confidence: 99%

Highly Efficient Metasurface Quarter‐Wave Plate with Wave Front Engineering

Chen

Gao

Xiao

et al. 2021

Advanced Photonics Research

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Metasurfaces with local phase tuning by subwavelength elements promise unprecedented possibilities for ultrathin and multifunctional optical devices in which geometric phase design is widely used due to its resonant‐free and large tolerance in fabrications. By arranging the orientations of anisotropic nanoantennas, the geometric phase‐based metasurfaces can convert the incident spin light to its orthogonal state, and enable flexible wave front engineering together with the function of a half‐wave plate. Herein, by incorporating the propagation phase, another important optical device of quarter‐wave plate together with the wave front engineering as well, which is implemented by controlling both the cross‐ and copolarized light simultaneously with a singlet metasurface, is realized. Highly efficient conversion of the spin light to a variety of linearly polarized light is obtained for meta‐holograms, metalens focusing and imaging in the blue light region. This work provides a new strategy for efficient metasurfaces with both phase and polarization control, and enriches the functionalities of metasurface devices for wider application scenarios.

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Ptychography retrieval of fully polarized holograms from geometric-phase metasurfaces

Cited by 171 publications

References 34 publications

Recent advances in multi-dimensional metasurfaces holographic technologies

Recent advances in multi-dimensional metasurfaces holographic technologies

Arbitrary polarization conversion dichroism metasurfaces for all-in-one full Poincaré sphere polarizers

Highly Efficient Metasurface Quarter‐Wave Plate with Wave Front Engineering

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