In a new study published in Nature Physics, researchers have demonstrated that quantum light, particularly bright squeezed ...
Scientists identify two sound-driven mechanisms for generating orbital currents, merging acoustics with cutting-edge electron ...
When an intense laser pulse hits a stationary electron, it performs a trembling motion at the frequency of the light field. However, this motion dies down after the pulse, and the electron comes to ...
Rocket Lab launched a payload for an undisclosed commercial customer Nov. 20, just hours after the company announced plans ...
AZoM on MSN
Advancing Material Science Through Electron Microscopy: Insights from Professor Sarah Haigh
Discover how Professor Sarah Haigh uses electron microscopy to advance material science, from 2D materials to catalysts, with ...
Live Science on MSN
'Portal to physics beyond the Standard Model': World's largest neutrino detector starts up — with incredible results
Deep underground in southern China, there is a 20,000-ton tank of liquid that can detect neutrinos. Named JUNO, the ...
China’s Giant Underground Neutrino Observatory Just Released Its First Results—And They’re Startling
China’s Giant Underground Neutrino Observatory Just Released Its First Results—And They’re Startling ...
Operating a new device named the Fusion Z-pinch Experiment 3, or FuZE-3, Zap Energy has now achieved plasmas with electron ...
Laser-driven deformation and fragmentation of C60 is recorded in real-time by X-ray imaging. ● Unexpected response: ...
Morning Overview on MSN
How do particle accelerators really work?
Particle accelerators are often framed as exotic machines built only to chase obscure particles, but they are really ...
Operating a new device named the Fusion Z-pinch Experiment 3, or FuZE-3, Zap Energy has now achieved plasmas with electron ...
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