Fluorescence microscopy has undergone a renaissance ... Like reconstructing a football game from a series of still pictures, this is an arduous (and some would say hopeless) endeavor 1.

A fluorescence microscopy image of phytoplankton including chain-forming diatoms and many large dinoflagellates. The different colors indicate different components of the cells including the cell ...

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The Zeiss Axiophot microscope is capable for bright field and epifluorescent imaging with both black and white, and color CCD cameras. Bright field imaging from the Zeiss microscope of brain sections ...

We’ve all likely seen the amazing images possible with a scanning ... The basic scheme here is known as confocal laser scanning fluorescence microscopy, where a laser at one wavelength excites ...

The Pathology Core laboratory is equipped with a Nikon E-1000 upright fluorescent microscope equipped with 4x ... The imaging system includes a workstation with software to control the microscope, ...

Fluorescence is a phenomenon in which illuminated materials emit light of a different wavelength to the incident light. Fluorescence microscopes create an image from the distribution of this emitted ...

has developed a way to process low-resolution label-free photoacoustic images into high-resolution virtually stained images resembling those generated by confocal fluorescence methods. Confocal ...

In modern life science research, fluorescence microscopy is a popular and powerful imaging technique. Yet, despite its overall success, the need for fluorescent labels limit its potential applications ...

This approach resolves high-resolution images from several tens of widefield fluorescence-microscope frames without requiring specialized equipment such as spatial-light modulators or intensive ...