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Flat lens
High-Efficiency, Wideband GRIN Lenses with Intrinsically Matched Unit-Cells
High Efficiency Near Diffraction-Limited Mid- Infrared Flat Lenses Based on Metasurface Reflectarrays
Design of an Acoustic Superlens Using Single-Phase Metamaterials with a Star-Shaped Lattice Structure
Flat Lens Criterion by Small-Angle Phase
Focusing of Electromagnetic Waves by a Left- Handed Metamaterial Flat Lens
Metamaterial Lensing Devices
High Efficient Ultra-Thin Flat Optics Based on Dielectric Metasurfaces
Measurements of a Prototype 20 Ghz Metamaterial Flat Lens
Dielectric Optical-Controlled Magnifying Lens by Nonlinear Negative Refraction
Physics and Applications of Negatively Refracting Electromagnetic Materials Steven M
Dynamic Metasurface Lens Based on MEMS Technology
Digital Incoherent Compressive Holography Using a Geometric Phase Metalens
COMSOL Multiphysics® Software As a Metasurfaces Design Tool for Plasmonic-Based Flat Lenses
Diffractive Flat Lens Enables Extreme Depth-Of-Focus Imaging
All-Angle Negative Refraction and Active Flat Lensing in the Ultraviolet
Metamaterial-Based Flat Lens: Wave Concept Iterative Process Approach
Recent Advances in Photoalignment Liquid Crystal Polarization Gratings and Their Applications
High Performance Atomically Thin Flat Lenses
Top View
Low-Cost Dielectric Flat Lens for Near-Field Focusing
Thin Flat Lenses and Axicons at Telecom Wavelengths Based on Plasmonic
Miniaturized Metalens Based Optical Tweezers on Liquid Crystal Droplets for Lab-On-A-Chip Optical Motors
Sensing, and Optical Memory 2020 ADVANCE PROGRAM Imaging
An Accurate Design of Graphene Oxide Ultrathin Flat Lens Based on Rayleigh-Sommerfeld Theory
Nanocouplers for Infrared and Visible Light
MULTILEVEL DIFFRACTIVE OPTICS for BROADBAND APPLICATIONS by Nabil Mohammad a Dissertation Submitted to the Faculty of the Univer
Aberration-Free Ultrathin Flat Lenses and Axicons at Telecom Wavelengths Based on Plasmonic Metasurfaces
Transformation Optics Methodology Review and Its Application to Antenna Lens Designs
Applications of Metamaterial Negative Refractive Index Lens (Mnri-Lens)
Design of a Perforated Flat Luneburg Lens Antenna Array for Wideband Millimeter-Wave Applications
On Metalenses with Arbitrarily Wide Field of View
Progresses in the Practical Metasurface for Holography and Lens That Are Not Shown in Natural Materials
Some Lens Design Methods
Design, Fabrication, Testing, and Application of a Sub-Wavelength
Metamaterial Lens with Both Electric and Magnetic Resonance Structure for Antenna Gain Enhancement
Flat Optics Based on Metasurfaces Federico Capasso
[email protected]
Superlenses to Overcome the Diffraction Limit