A breakthrough in imaging technology promises to transform our understanding of the inner workings of living cells, and provide insights into a wide range of diseases.

Researchers at the University of Adelaide, as part of an international team, have developed an approach that makes advanced microscopy possible through an optical fiber thinner than a human hair.

The technique can now be used to image viscoelastic properties of biological samples much more quickly and safely, at high ...

Harvard engineers unveiled the world's first visible-spectrum metasurfaces—ultra-thin, flat devices patterned with nanoscale ...

Nikon Corporation announces the 100th anniversary of the launch of its JOICO microscope, marking the beginning of the company's current healthcare business unit.What started as a simple microscope ...

Introduction to SNOM: The Scanning Near-field Optical Microscope (SNOM) stands as a pivotal analytical tool in nanotechnology, enabling the visualization of nanostructures with resolution beyond the ...

The emergence of imaging schemes capable of overcoming Abbe's diffraction barrier is revolutionizing optical microscopy. In 1873, the German physicist Ernst Abbe realized that the resolution of ...

The optical light microscope MeF4M is used for examination of flat surfaces and for examination of materiallographic and metallographic sections. This research into the microstructure of materials. In ...

Advance to Brillouin microscopy by a European Molecular Biology Laboratory-engineered team widens the aperture and provides ...

Nikon Corp. is celebrating the 100th anniversary of the launch of its JOICO microscope, which led to the creation of the ...