Researchers at the University of Tokyo have built a microscope that can detect a signal over an intensity range 14 times ...

The invention that first enabled researchers to see clear images of living cells was the phase-contrast microscope, which won its inventor, Frits Zernike, a Nobel Prize in 1932. Prior to Zernike's ...

Researchers at the University of Warsaw's Faculty of Physics with colleagues from Stanford University and Oklahoma State University have introduced a quantum-inspired phase-imaging method based on ...

Researchers at University of Tsukuba have achieved high-resolution visualization of cellular organelles, such as nuclei and ...

Quantitative phase imaging is a powerful, non-invasive and quantitative microscopy technique that allows multi-scale imaging of cellular systems, explain Mustafa Mir and Gabriel Popescu Imaging by ...

The capabilities of the shared microscopy facility include brightfield, phase contrast, and both 2-D and 3-D fluorescence imaging. The OLYMPUS BX51 research microscope is a union of Olympus infinity ...

A novel optical microscope utilizing diffraction tomography to generate 3D holographic images of unlabeled live cells is now available from Tomocube. Called HT-1, the new microscope delivers ...

To quantitatively evaluate brain tissue and its corresponding function, knowledge of the 3D cellular distribution is essential. The gold standard to obtain this information is histology, a destructive ...

An increasing understanding of how materials crystallize has transformed modern science and technology, from display technologies such as LCDs to solar panels and the analysis of biological samples to ...

Hey folks! I figured this would be best in the observatory. I'm relearning how to use microscopes and learning for the first time how to really use them more effectively, so that I can show my ...