We present the experimental reconstruction of sub-wavelength features from the far-field of sparse optical objects. We show that it is sufficient to know that the object is sparse, and only that, and recover 100 nm features with the resolution of 30 nm, for an illuminating wavelength of =532 nm. Our technique works in real-time, requires no scanning, and can be implemented in all existing microscopes- optical and non-optical
Wavefront shaping makes it possible to form a focus through opaque scattering materials. In some cas...
Seeing and recognizing an object whose size is much smaller than the illumination wavelength is a ch...
The use of short wavelength sources for microscopy increases resolution via the diffraction limit, a...
We report the experimental demonstration of deeply subwavelength far-field optical microscopy of unl...
We analyze the limits of a novel machine-learning based technique for characterization of sub-wavele...
We report the experimental demonstration of deeply subwavelength far-fieldoptical imaging of unlabel...
Superresolution depends on near-field capture and transfer of high spatial frequencies from the scat...
A method is developed theoretically that will permit subwavelength measurements of objects that diff...
A nonintrusive far-field optical microscopy resolving structures at the nanometer scale would revolu...
The resolution of a conventional diffraction-limited imaging system is proportional to its pupil dia...
Microscopes and various forms of interferometers have been used for decades in optical metrology of ...
We show that dielectric objects much smaller than the wavelength used to illuminate them, can produc...
In this dissertation, the process of recovering structure from sparse data is dis-cussed. Specifical...
In this dissertation, the process of recovering structure from sparse data is discussed. Specificall...
We report that two-dimensional (2D) sub-diffraction-limited images can be theoretically reconstructe...
Wavefront shaping makes it possible to form a focus through opaque scattering materials. In some cas...
Seeing and recognizing an object whose size is much smaller than the illumination wavelength is a ch...
The use of short wavelength sources for microscopy increases resolution via the diffraction limit, a...
We report the experimental demonstration of deeply subwavelength far-field optical microscopy of unl...
We analyze the limits of a novel machine-learning based technique for characterization of sub-wavele...
We report the experimental demonstration of deeply subwavelength far-fieldoptical imaging of unlabel...
Superresolution depends on near-field capture and transfer of high spatial frequencies from the scat...
A method is developed theoretically that will permit subwavelength measurements of objects that diff...
A nonintrusive far-field optical microscopy resolving structures at the nanometer scale would revolu...
The resolution of a conventional diffraction-limited imaging system is proportional to its pupil dia...
Microscopes and various forms of interferometers have been used for decades in optical metrology of ...
We show that dielectric objects much smaller than the wavelength used to illuminate them, can produc...
In this dissertation, the process of recovering structure from sparse data is dis-cussed. Specifical...
In this dissertation, the process of recovering structure from sparse data is discussed. Specificall...
We report that two-dimensional (2D) sub-diffraction-limited images can be theoretically reconstructe...
Wavefront shaping makes it possible to form a focus through opaque scattering materials. In some cas...
Seeing and recognizing an object whose size is much smaller than the illumination wavelength is a ch...
The use of short wavelength sources for microscopy increases resolution via the diffraction limit, a...