It is the computational processing of images that reveals the finest details of a sample placed under all kinds of different light microscopes. Even though this processing has come a long way, there ...

a. MRA helps resolve the dense actin filaments with SIM imaging. b. MRA helps resolve the mitochondrial cristae cluster with LiveSR imaging. c. SecMRA helps better section the ER tubule structure. d.

The first major benefit of confocal microscopes is the level of detail which can be achieved. With an already impressive horizontal resolution of 0.2 microns and vertical resolution of 0.5 confocal ...

In decades past, researchers and scientists have been constrained by an optical resolution limit—defined over 140 years ago—that established the maximum resolution of an optical system of 200 nm in ...

The Cell Imaging Center houses two wide-field microscopes: the Olympus IX81 and the Zeiss AxioObserver. A wide-field microscope is a type of fluorescence microscope in which the entire specimen is ...

SIMIP enables high-resolution images rich in both chemical and spatial information. A quantum cascade laser (QCL) excites molecular vibrations while a spatial light modulator (SLM) generates striped ...

Two-photon microscopy (also known as two-photon fluorescence light microscopy) was invented in 1990 as a new method of imaging live cells and tissues in three-dimensions. Conventional fluorescence ...

Electron microscopy is a powerful technique that provides high-resolution images by focusing a beam of electrons to reveal fine structural details in biological and material specimens. 2 Because ...