Researchers have demonstrated a more compact and efficient alternative using silicon metasurfaces that convert infrared light ...

Scintillators are detectors that make high-energy X-rays or particles visible through flashes of light to form an image.

With the advent of quantum shell scintillators for high-resolution and ultrafast imaging, scientists are able to bypass the limitations of traditional scintillator technology. This pioneering work ...

Researchers devised a unique method to observe changes in materials at the atomic level. The technique opens new avenues for ...

Infrared imaging technology is crucial for advancing our understanding of the world, from exploring biological specimens to ...

A team from the University of California Santa Barbara used ultrafast electron microscopy to record photocarriers as they ...

Oak Ridge National Laboratory's new RODAS technology provides detailed insights into atomic changes in materials, critical ...

With the advent of quantum shell scintillators for high-resolution and ultrafast imaging, scientists are able to bypass the ...

Electron microscopy measurements are usually performed by collecting all points in a 2D grid. Here, using deep learning in ...

With Micro Four Thirds' 2x crop factor, the OM System M.Zuiko 150-600mm f/5.0-6.3 IS lens becomes a 300-1200mm monster ...

When paired with an optional FUJINON Teleconverter XF1.4X TC WR [1], the lens reaches a maximum focal length of 700mm (35mm equivalent focal length of 1067mm), and with FUJINON Teleconverter XF2X TC ...