Janice L Robertson with Rahul Chadda (middle), Kacey Mersch (right), and the team's TIRF microscope Progress in understanding the lipid bilayer – an ingenious two-molecule thick oily barrier that ...

Representing the latest in total internal reflection (TIRF) technology, the newly expanded Olympus cellTIRF family offers systems for all needs, including a new cost-effective one-line illuminator ...

Designed with new manufacturing technology that creates lenses with shapes that are difficult to fabricate using other methods, Olympus’ new X Line™ series objectives and the UPLAPO-HR objectives for ...

Researchers at the National Institute of Biomedical Imaging and Bioengineering (MD, USA) have combined two different microscope technologies to create sharper images of rapidly moving processes inside ...

Recent technological advances in conjunction with major developments in fluorescent markers have made fluorescence microscopy an extremely powerful tool. René Hessling and Thorsten Kues of Carl Zeiss ...

Stick a soda straw into a glass of water, and from the side, the straw will appear to bend at the interface between air and water. That effect is caused by the different refractive indexes of the air ...

The new lab of Nagaraja Chappidi (Molecular Mechanisms Underlying Genome Stability in Human Health) investigates how cells ensure accurate genome duplication and faithful transmission of genetic ...

Researchers have extended the resolution of a wide-field microscope beyond the diffraction limit to image cells in finer detail. A team of Swiss researchers has increased the lateral resolution of a ...