A nonintrusive far-field optical microscopy resolving structures at the nanometer scale would revolutionize biomedicine and nanotechnology but is not yet available. Here, a new type of microscopy is introduced, which reveals the fine structure of an object through its far-field scattering pattern under illumination with light containing deeply subwavelength singularity features. The object is reconstructed by a neural network trained on a large number of scattering events. In numerical experiments on imaging of a dimer, resolving powers better than λ/200, i.e., two orders of magnitude beyond the conventional “diffraction limit” of λ/2, are demonstrated. It is shown that imaging is tolerant to noise and is achievable with low dynamic range l...
Progress in the emerging areas of science and technology, such as bio- and nano-technologies, depen...
Scattering scanning near-field optical microscopy (s-SNOM) provides spectroscopic imaging from molec...
Deep artificial neural networks are powerful tools with many possible applications in nanophotonics....
A nonintrusive far-field optical microscopy resolving structures at the nanometer scale would revolu...
We demonstrate experimentally label-free far-field imaging of subwavelength objects at resolution gr...
We introduce a non-intrusive far-field optical microscopy, which reveals the fine structure of an ob...
We report the experimental demonstration of deeply subwavelength far-field optical microscopy of unl...
We report the experimental demonstration of deeply subwavelength far-fieldoptical imaging of unlabel...
Conventional optical microscopes generally provide blurry and indistinguishable images for subwavele...
The resolution of conventional microscopy is limited to a half of the wavelength of light. We report...
We report the development of deep-learning coherent electron diffractive imaging at subangstrom reso...
In this work, we demonstrate theoretically and experimentally the ability to classify and reconstruc...
Abstract A computational imaging platform utilizing a physics-incorporated, deep-learned design of b...
Seeing and recognizing an object whose size is much smaller than the illumination wavelength is a ch...
Light Field Microscopy (LFM) is an imaging technique that offers the opportunity to study fast dynam...
Progress in the emerging areas of science and technology, such as bio- and nano-technologies, depen...
Scattering scanning near-field optical microscopy (s-SNOM) provides spectroscopic imaging from molec...
Deep artificial neural networks are powerful tools with many possible applications in nanophotonics....
A nonintrusive far-field optical microscopy resolving structures at the nanometer scale would revolu...
We demonstrate experimentally label-free far-field imaging of subwavelength objects at resolution gr...
We introduce a non-intrusive far-field optical microscopy, which reveals the fine structure of an ob...
We report the experimental demonstration of deeply subwavelength far-field optical microscopy of unl...
We report the experimental demonstration of deeply subwavelength far-fieldoptical imaging of unlabel...
Conventional optical microscopes generally provide blurry and indistinguishable images for subwavele...
The resolution of conventional microscopy is limited to a half of the wavelength of light. We report...
We report the development of deep-learning coherent electron diffractive imaging at subangstrom reso...
In this work, we demonstrate theoretically and experimentally the ability to classify and reconstruc...
Abstract A computational imaging platform utilizing a physics-incorporated, deep-learned design of b...
Seeing and recognizing an object whose size is much smaller than the illumination wavelength is a ch...
Light Field Microscopy (LFM) is an imaging technique that offers the opportunity to study fast dynam...
Progress in the emerging areas of science and technology, such as bio- and nano-technologies, depen...
Scattering scanning near-field optical microscopy (s-SNOM) provides spectroscopic imaging from molec...
Deep artificial neural networks are powerful tools with many possible applications in nanophotonics....