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Physicists would dearly love to find new particles, but there's no sign of them in colliders like the LHC. Now we have found a new way of accessing a tiny slice of reality where they might be hiding ...
Scientists have twisted DNA into programmable nanostructures that form themselves — and could reshape future materials for light, sound, and electronics.
Nuclear reactors and spacecraft are exposed to high levels of radiation and high temperatures, so it's critical the metals ...
Scientists have observed a brand-new and exotic atomic nucleus: aluminium-20. Unlike anything seen before, it decays through ...
Electron microscopes are some of the most powerful tools in science, allowing us to capture images at a scale so tiny that we can observe individual atoms! Unlike traditional light microscopes ...
ELVIS, a new holographic microscope developed at Portland State University, could help advance efforts to look for life on other worlds.
Correlative light-volume-electron microscopy revealed that NE-LDs projected towards the cytoplasm and associated with type II nuclear envelope (NE) invaginations. The nuclear envelope localization of ...
This paper describes a methodology to analyse the complexity of HeLa cells as observed with electron microscopy, in particular the relationship between mitochondria and the roughness of the nuclear ...
Researchers have succeeded for the first time in filming the interactions of light and matter in an electron microscope with attosecond time resolution.
The CDTN Electron Microscopy Laboratory is comprised of a field-effect emission scanning electron microscope (FEG-MEV), model SIGMA VP, manufactured by Carl Zeiss Microscopy. The equipment operates in ...
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