Add to ORKGWe propose an approach to far-field optical imaging beyond the diffraction limit. The proposed system allows image magnification, is robust with respect to material losses and can be fabricated by adapting existing metamaterial technologies in a cylindrical geometry
The limited resolution of a conventional optical imaging system stems from the fact that the fine fe...
Abstract—Focusing using conventional lenses relies on the col-lection and interference of propagatin...
The use of super-resolution imaging to overcome the diffraction limit of conventional microscopy has...
The diffraction limit of light, which iscaused by the loss of evanescent wavesin the far field that ...
The diffraction limit of light, which iscaused by the loss of evanescent wavesin the far field that ...
Far-field optical lens resolution is fundamentally limited by diffraction, which typically is about ...
Far-field optical lens resolution is fundamentally limited by diffraction, which typically is about ...
The fabrication process as well as the optical characterization of a Far-field Superlens (FSL) is pr...
Conventional optics suffer from a fundamental resolution limit due to the nature of light. The near-...
Hyperlenses have generated much interest recently, not only because of their intriguing physics but ...
We report that two-dimensional (2D) sub-diffraction-limited images can be theoretically reconstructe...
Breaking the diffraction limit for the resolution of conventional optical systems has long been the ...
Contrary to the conventional near-field superlensing, subwavelength superlens imaging is experimenta...
We demonstrate that achieving the far-field super-resolution imaging can be realized by using a plan...
Abstract—In this work, a far field imaging model based on the array structure of positive- and negat...
The limited resolution of a conventional optical imaging system stems from the fact that the fine fe...
Abstract—Focusing using conventional lenses relies on the col-lection and interference of propagatin...
The use of super-resolution imaging to overcome the diffraction limit of conventional microscopy has...
The diffraction limit of light, which iscaused by the loss of evanescent wavesin the far field that ...
The diffraction limit of light, which iscaused by the loss of evanescent wavesin the far field that ...
Far-field optical lens resolution is fundamentally limited by diffraction, which typically is about ...
Far-field optical lens resolution is fundamentally limited by diffraction, which typically is about ...
The fabrication process as well as the optical characterization of a Far-field Superlens (FSL) is pr...
Conventional optics suffer from a fundamental resolution limit due to the nature of light. The near-...
Hyperlenses have generated much interest recently, not only because of their intriguing physics but ...
We report that two-dimensional (2D) sub-diffraction-limited images can be theoretically reconstructe...
Breaking the diffraction limit for the resolution of conventional optical systems has long been the ...
Contrary to the conventional near-field superlensing, subwavelength superlens imaging is experimenta...
We demonstrate that achieving the far-field super-resolution imaging can be realized by using a plan...
Abstract—In this work, a far field imaging model based on the array structure of positive- and negat...
The limited resolution of a conventional optical imaging system stems from the fact that the fine fe...
Abstract—Focusing using conventional lenses relies on the col-lection and interference of propagatin...
The use of super-resolution imaging to overcome the diffraction limit of conventional microscopy has...