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Using data collected at Fermilab, scientists have determined the mass with a precision of 0.01% – twice as precise as the previous best measurement.
A partnership with the world’s leading chip manufacturer accelerates the development of quantum devices.
Nuclear physicists have found that the internal structures of protons and neutrons may be altered in different ways inside nuclei.
His future research will focus on the scaling up of chemical manufacturing and fuel production to further accelerate decarbonization.
Twistons, which depend on the angle mismatch between the top & bottom layers, enables systematic studies of their effects on superconductivity.
Small arrays of magnets with strange, unusual properties can order themselves by increasing entropy, appearing to contradict standard thermodynamics.
Heftier-than-predicted subatomic particle exposes crack in decades-old theory and hints at more waiting to be discovered about the cosmos.
The former National Synchrotron Light Source building has been turned into a state-of-the-art data storage and computing facility.
Ancient Japanese art of kirigami guides artificial intelligence (AI) technique for durable, wearable electronics.
The new precision measurement allows scientists to test the Standard Model, the framework that describes nature at its most fundamental level.