Scientists routinely create models of proteins using X-ray diffraction, nuclear magnetic resonance, and conventional cryo-electron microscope (cryoEM) imaging. But these models require computer ...

Using state-of-the-art cryo-electron microscopy ... of individual images of the molecules under the microscope and then used high-performance computers to calculate a 3D structure at almost ...

What if ultrafast pulses of light could operate computers at speeds a million times faster than today's best processors? A ...

Analysing this network under ... microscope is one of the biggest challenges facing the neurosciences. Most axons are less than one micrometre thick, some even smaller than 100 nanometres. "The ...

powerful scanning electron microscopes (which bombard the subject with electrons and build the image using a computer) and transmission electro microscopes. These are eyebrow hairs growing from ...

Both electron and light microscopy advanced in the 20th century. Today, labs may use fluorescent tags or polarized filters to view specimens, or they use computers to capture and analyze images ...

Scientists routinely create models of proteins using X-ray diffraction, nuclear magnetic resonance, and conventional cryo-electron microscope (cryoEM) imaging. But these models require computer ...