Add to ORKGThe theory of the far-zone waveguide optical microscopy (WOM) image formation is described. The analysis of linear direct and inverse problems of the WOM is accomplished. The theoretical investigation predicts: the lateral resolution can attain ∼20 nm and the vertical resolution (in RMS height) can attain ∼1 Å. The limiting lateral resolution is a ∼15-times less than Abbe's diffraction limit. Thus the superresolution may be accomplished by the waveguide optical microscopy. The increasing of WOM's resolution depends on a priori information of the object under the test and on a sufficiently high signal-to-noise ratio (SNR). Copyright © 1998 by Astro, Ltd
Theory describing a super-resolution microscopy experiment using temporally and spatially coherent s...
A novel methodology based on the scanning confocal microscope is presented which enables a general s...
Scanning near-field optical microscopy (SNOM) is a system that can image beyond the conventional dif...
The theory of the far-zone waveguide optical microscopy (WOM) image formation is described. The anal...
The theoretical aspects of the light scattering on the statistical irregularities of the planar opti...
An algorithm of optimization of characteristics and parameters of a new type of optical microscope -...
We report on a high-resolution metal-clad waveguide scanning microscopic method with a diffraction-l...
The model computer solution of the direct and inverse problems was obtained on the basis of the deve...
We present an experimental study of the coupling of light from a waveguide into a submicron size opt...
Minimally invasive technologies to characterize the structure and functionality of biological sample...
Abstract: Measurement of spectral interference with a near-field scanning optical microscope is used...
Double-slit imaging is widely used for verifying the resolution of high-resolution and super-resolut...
Softcover, 168 S.: 40,00 €Softcover, 17x24Lensless x-ray imaging is a promising method to determine ...
Scanning near-field optical microscopy (SNOM) has been applied to investigate the dispersion and non...
We report on the investigation of planar photonic crystal waveguide transitions with a scanning near...
Theory describing a super-resolution microscopy experiment using temporally and spatially coherent s...
A novel methodology based on the scanning confocal microscope is presented which enables a general s...
Scanning near-field optical microscopy (SNOM) is a system that can image beyond the conventional dif...
The theory of the far-zone waveguide optical microscopy (WOM) image formation is described. The anal...
The theoretical aspects of the light scattering on the statistical irregularities of the planar opti...
An algorithm of optimization of characteristics and parameters of a new type of optical microscope -...
We report on a high-resolution metal-clad waveguide scanning microscopic method with a diffraction-l...
The model computer solution of the direct and inverse problems was obtained on the basis of the deve...
We present an experimental study of the coupling of light from a waveguide into a submicron size opt...
Minimally invasive technologies to characterize the structure and functionality of biological sample...
Abstract: Measurement of spectral interference with a near-field scanning optical microscope is used...
Double-slit imaging is widely used for verifying the resolution of high-resolution and super-resolut...
Softcover, 168 S.: 40,00 €Softcover, 17x24Lensless x-ray imaging is a promising method to determine ...
Scanning near-field optical microscopy (SNOM) has been applied to investigate the dispersion and non...
We report on the investigation of planar photonic crystal waveguide transitions with a scanning near...
Theory describing a super-resolution microscopy experiment using temporally and spatially coherent s...
A novel methodology based on the scanning confocal microscope is presented which enables a general s...
Scanning near-field optical microscopy (SNOM) is a system that can image beyond the conventional dif...