Recent advances in metasurface lenses (metalenses) have shown great potential for opening a new era in compact imaging, photography, light detection and ranging (LiDAR), and virtual reality/augmented reality (VR/AR) applications. However, the fundamental trade-off between broadband focusing efficiency and operating bandwidth limits the performance of broadband metalenses, resulting in chromatic aberration, angular aberration, and a relatively low efficiency. In this study, a deep-learning-based image restoration framework is proposed to overcome these limitations and realize end-to-end metalens imaging, thereby achieving aberration-free full-color imaging for massproduced metalenses with 10-mm diameter. Neural network-assisted metalens imag...
We introduce a non-intrusive far-field optical microscopy, which reveals the fine structure of an ob...
Three-dimensional (3D) positioning with the correction of imaging aberrations in the photonic platfo...
Thesis: S.M., Massachusetts Institute of Technology, Department of Materials Science and Engineering...
Metasurfaces have been studied and widely applied to optical systems. A metasurface-based flat lens ...
Metasurfaces, known as ultra-thin and planar structures, are widely used in optical components with ...
Nano-optic imagers that modulate light at sub-wavelength scales could enable new applications in div...
Metasurfaces, the 2D counterpart of artificial metamaterials, have attracted much attention because ...
Metasurface has demonstrated potential and novel optical properties in previous research. The prevai...
In this work, we discuss our recent research advances in the field of subwavelength image recognitio...
Conventional optical microscopes generally provide blurry and indistinguishable images for subwavele...
Metalenses, artificially engineered subwavelength nanostructures to focus light within ultrathin thi...
We present our work on using deep neural networks for the prediction of the optical properties of na...
Depth imaging is very important for many emerging technologies, such as artificial intelligence, dri...
Metalens is one of the most advanced lens technology. Basing on the technique of metasurface, the me...
Recently, optical dielectric metasurfaces, ultrathin optical skins with densely arranged dielectric ...
We introduce a non-intrusive far-field optical microscopy, which reveals the fine structure of an ob...
Three-dimensional (3D) positioning with the correction of imaging aberrations in the photonic platfo...
Thesis: S.M., Massachusetts Institute of Technology, Department of Materials Science and Engineering...
Metasurfaces have been studied and widely applied to optical systems. A metasurface-based flat lens ...
Metasurfaces, known as ultra-thin and planar structures, are widely used in optical components with ...
Nano-optic imagers that modulate light at sub-wavelength scales could enable new applications in div...
Metasurfaces, the 2D counterpart of artificial metamaterials, have attracted much attention because ...
Metasurface has demonstrated potential and novel optical properties in previous research. The prevai...
In this work, we discuss our recent research advances in the field of subwavelength image recognitio...
Conventional optical microscopes generally provide blurry and indistinguishable images for subwavele...
Metalenses, artificially engineered subwavelength nanostructures to focus light within ultrathin thi...
We present our work on using deep neural networks for the prediction of the optical properties of na...
Depth imaging is very important for many emerging technologies, such as artificial intelligence, dri...
Metalens is one of the most advanced lens technology. Basing on the technique of metasurface, the me...
Recently, optical dielectric metasurfaces, ultrathin optical skins with densely arranged dielectric ...
We introduce a non-intrusive far-field optical microscopy, which reveals the fine structure of an ob...
Three-dimensional (3D) positioning with the correction of imaging aberrations in the photonic platfo...
Thesis: S.M., Massachusetts Institute of Technology, Department of Materials Science and Engineering...