Nuclear Clock Accurate to 19 Decimal Places
A newly proposed nuclear clock would be nearly 100 times more accurate than the best atomic clocks we have now, would be accurate to 19…
A newly proposed nuclear clock would be nearly 100 times more accurate than the best atomic clocks we have now, would be accurate to 19…
Using laser-induced electron diffraction, a team of physicists recorded the first real-time image of two atoms vibrating in a molecule. While using common atmospheric gases…
A new study published today shows the first measurements of the antihydrogen spectrum. The ALPHA collaboration at CERN has been researching antimatter and has routinely…
The elusive Higgs boson might have been spotted in the data collected by the Tevatron, a now shuttered collider at Fermilab in Batavia, Illinois. The…
A new study in the field of atomtronics shows how magnetic atoms sort themselves into numerous phases depending on the magnetic joystick controlling the strength…
A new publication demonstrates that the dynamics of a system of ultracold potassium atoms, trapped in an optical lattice, depend surprisingly strongly on the particle…
Three years after their initial encounter, researchers at the U.S. Department of Energy’s Lawrence Berkeley National Laboratory have explained what’s happening with the “nanoscale crop…
Researchers at the U.S. Department of Energy’s Argonne and Thomas Jefferson National Laboratories have demonstrated that a quarter of the nucleons in a dense nucleus…
Physicists at the Max Planck Institute used a short electric pulse to change the magnetic transport properties of a material sandwich consisting of a ferroelectric…
It’s been reported that researchers in the Leo Kouwenhoven group, based out of the Delft University of Technology in the Netherlands, might have beaten several…
Based on data gathered at the Tevatron accelerator, researchers from the CDF collaboration have just unveiled the world’s most precise measurement of the W boson…
Superconductivity, a phenomenon that works only at temperatures close to absolute zero, has been proven to work at higher temperatures, as much as 70 kelvin….
Back in September, the revolutionary claim that the OPERA collaboration had measured neutrinos traveling faster than the speed has light is now in doubt, as…
Using ferromagnetic metals for the electrodes, a team of researchers from the National Institute of Standards and Technology built a layered switching device to better…
Researchers at the National Physical Laboratory are one step closer to changing the international definition of the kilogram. By using technology produced by the NPL,…
Researchers at the RIKEN Advanced Science Institute (ASI) have developed a theory that provides an understanding of relativistic electron vortex beams. Through the combined consideration…
Researchers at the University of York have created electron beams with orbital angular momentum, electron vortex beams, which improve the resolution and sensitivity of imaging….
Quantum computing has taken another step forward as physicists at Yale University demonstrate the most basic form of quantum error correction — a way to…