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A computational paradigm that can accurately simulate interactions between powerful laser beams and quantum fluctuations in a ...
Scientists can now snap ultra-powerful laser pulses in one shot. RAVEN reveals distortions instantly, unlocking breakthroughs ...
A small satellite about the size of a shoebox has been launched into space to test exciting new quantum communication ...
While gluons are responsible for generating most of the visible mass in the universe, their role inside nuclei remains poorly ...
Optical biosensors use light waves as a probe to detect molecules, and are essential for precise medical diagnostics, ...
But axions were pushed aside as the WIMPs hypothesis gained more steam. Back-of-the-envelope calculations showed that the ...
Imagine detecting a single trillionth of a gram of a molecule—like an amino acid—using just electricity and a chip smaller ...
Scientists have developed a groundbreaking technique called RAVEN that can capture the full complexity of an ultra-intense laser pulse in a single shot—something previously thought nearly impossible.
Scientists at the University of Oxford have unveiled a pioneering method for capturing the full structure of ultra-intense ...
Combining single-pixel wavefront imaging with a custom neural network improves the photon imaging in cloudy environments.
Several methods have been proposed for the generation of photon-number-squeezed (sub-Poisson) light by imparting to the photon stream and anticorrelation that regularizes the times of arrival of the ...