Precise knowledge of the effective spatial resolution in a stimulated emission depletion (STED) microscopy experiment is essential for reliable interpretation of the imaging results. STED microscopy theoretically provides molecular resolution, but practically different factors limit its resolution. Because these factors are related to both the sample and the system, a reliable estimation of the resolution is not straightforward. Here we show a method based on the Fourier ring correlation (FRC), which estimates an absolute resolution value directly from any STED and, more in general, point-scanning microscopy image. The FRC-based resolution metric shows terrific sensitivity to the image signal-to-noise ratio, as well as to all sample and sys...
Colocalization analyses of fluorescence images are extensively used to quantify molecular interactio...
The diffraction limit fundamentally restricts the achievable resolution of conventional microscopes,...
We present a multi-color STED fluorescence microscope providing far-field optical resolution down to...
Precise knowledge of the effective spatial resolution in a stimulated emission depletion (STED) micr...
Quantifying the imaging performances in an unbiased way is of outmost importance in super-resolution...
Optical nanoscopy techniques using localization based image reconstruction, also termed super-resolu...
Resolution in optical nanoscopy (or super-resolution microscopy) depends on the localization uncerta...
Resolution in optical nanoscopy (or super-resolution microscopy) depends on the localization uncerta...
Fourier ring correlation (FRC) has recently gained popularity among fluorescence microscopists as a ...
In stimulated emission depletion (STED) microscopy, the spatial resolution scales as the inverse squ...
Super-resolution microscopy has significantly expanded the scope of application of biological micros...
Stimulated emission depletion (STED) microscopy is one type of far-field optical technique demonstra...
Due to relatively high powers used in STED, biological samples may be affected by the illumination ...
Stimulated emission depletion (STED) microscopy is in its simplest form an extension of confocal flu...
Both the branches of high resolution nanoscopy coordinate targeted and coordinate stochastic methods...
Colocalization analyses of fluorescence images are extensively used to quantify molecular interactio...
The diffraction limit fundamentally restricts the achievable resolution of conventional microscopes,...
We present a multi-color STED fluorescence microscope providing far-field optical resolution down to...
Precise knowledge of the effective spatial resolution in a stimulated emission depletion (STED) micr...
Quantifying the imaging performances in an unbiased way is of outmost importance in super-resolution...
Optical nanoscopy techniques using localization based image reconstruction, also termed super-resolu...
Resolution in optical nanoscopy (or super-resolution microscopy) depends on the localization uncerta...
Resolution in optical nanoscopy (or super-resolution microscopy) depends on the localization uncerta...
Fourier ring correlation (FRC) has recently gained popularity among fluorescence microscopists as a ...
In stimulated emission depletion (STED) microscopy, the spatial resolution scales as the inverse squ...
Super-resolution microscopy has significantly expanded the scope of application of biological micros...
Stimulated emission depletion (STED) microscopy is one type of far-field optical technique demonstra...
Due to relatively high powers used in STED, biological samples may be affected by the illumination ...
Stimulated emission depletion (STED) microscopy is in its simplest form an extension of confocal flu...
Both the branches of high resolution nanoscopy coordinate targeted and coordinate stochastic methods...
Colocalization analyses of fluorescence images are extensively used to quantify molecular interactio...
The diffraction limit fundamentally restricts the achievable resolution of conventional microscopes,...
We present a multi-color STED fluorescence microscope providing far-field optical resolution down to...