Measuring the volume, motion and contents of microscopic droplets is important for studying how airborne viruses spread (including those that cause Covid-19), how clouds reflect sunlight to cool the ...

(Nanowerk Spotlight) Direct visualization and manipulation of individual carbon nanotubes (CNTs) in ambient conditions is of great significance for their characterizations and applications. However, ...

GLONIK has released a new 3D optical microscope that allows users to freely change their views, not only vertical view but also oblique views at arbitrary angles. GLONIK's patented technology provides ...

Schematic of the transmission mode microsphere superlens integrated with a classical optical microscope. The spheres collect the near-field object information and form virtual images that can be ...

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Scientists have produced the world's most powerful optical microscope, which could help us understand the causes of many viruses and diseases. Scientists have produced the world's most powerful ...

It’s relatively easy to understand how optical microscopes work at low magnifications: one lens magnifies an image, the next magnifies the already-magnified image, and so on until it reaches the eye ...

Sneezes, rain clouds, and ink jet printers: They all produce or contain liquid droplets so tiny it would take several billion of them to fill a liter bottle. Measuring the volume, motion and contents ...

Left, a tissue sample dyed by traditional methods. Centre, a computed stain created from infrared–optical hybrid imaging. Right, tissue types identified with infrared data; the pink in this image ...

Widely considered the most common type of microscope, Optical Microscopes magnify visible light to allow for the examination of features too small for the naked eye. This kind of microscope is ...