Abstract
Microscopy is the workhorse of the physical and life sciences, producing crisp images of everything from atoms to cells well beyond the capabilities of the human eye. However, the analysis of these images is frequently little better than automated manual marking. Here, we revolutionize the analysis of microscopy images, extracting all the information theoretically contained in a complex microscope image. Using a generic, methodological approach, we extract the information by fitting experimental images with a detailed optical model of the microscope, a method we call Parameter Extraction from Reconstructing Images (PERI). As a proof of principle, we demonstrate this approach with a confocal image of colloidal spheres, improving measurements of particle positions and radii by 100x over current methods and attaining the maximum possible accuracy. With this unprecedented resolution, we measure nanometer-scale colloidal interactions in dense suspensions solely with light microscopy, a previously impossible feat. Our approach is generic and applicable to imaging methods from brightfield to electron microscopy, where we expect accuracies of 1 nm and 0.1 pm, respectively.
Highlights
Microscope technology has progressed to near perfection
We revolutionize the analysis of microscopy images, extracting all the useful information theoretically contained in a complex microscope image
Nanometer-scale details boast of super-resolution techniques thought impossible mere decades ago: photoactivated localization microscopy (PALM) [1], stochastic optical reconstruction microscopy (STORM) [2], and stimulated emission depletion (STED) [3]
Summary
Microscope technology has progressed to near perfection. Crisp images speak of precisely engineered microscope components: large-aperture and nearly aberration-free lenses, high-frame-rate and low-noise cameras, and powerful and uniform light sources. Methodological approach, we extract the information by fitting experimental images with a detailed optical model of the microscope, a method we call parameter extraction from reconstructing images (PERI).
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