The first microscopes, in the 1500s and 1600s, transformed glass panes that looked completely transparent into a universe teeming with bacteria, cells, pollen and intricate crystals. These visionary ...

The first deep-learning software was developed as a versatile tool for tracking cells and extracting their signals from ~100 cells in a moving worm brain, in a zebrafish heart, and ~1,000 cultured ...

It's tough to capture the world's tiniest organisms in photos, but it's even tougher to capture footage of them in action. After awarding the best microscope photography of 2019, Nikon has revealed ...

Big and small: RUSH image of the brain of a live mouse. The coloured lines show the motions of labelled immune cells. The image is about 1 cm across. (Courtesy: Jingtao Fan et al/Nature Photonics) A ...

Researchers at the FMI and Viventis Microscopy teamed up to develop a cutting-edge light-sheet microscope that has the potential to transform imaging studies and enable scientific breakthroughs. Their ...

Electron microscopes have been helping us see what the things around us are made of for decades. These microscopes use a beam of electrons to illuminate extremely small structures, but they can't ...

The video shows no evidence of digital manipulation, and the weevils and mites it depicts are authentic pests commonly found in some types of food. However ... What's False Some features of the video, ...

An curved arrow pointing right. Nikon is out with the winners of its annual Small World in Motion Competition, a contest that awards the best microscope videos from photographers around the world.

Just when I thought I'd seen it all and there was nothing the beauty world could throw my way that I couldn't handle, one of my favorite YouTubers just had to post a video showing makeup under a ...

Smartphones can take your pulse, monitor your mental health, keep track of your diet, analyze your sleep cycle and help control your diabetes. Now, a new smartphone technology can spot parasites in ...

Or more precisely, as neuroscientist Eric Betzig and his colleagues put it in today’s issue of Science: “Every living thing is a complex thermodynamic pocket of reduced entropy through which matter ...