In a stunning new discovery, researchers at the University of Jyväskylä, Finland, have uncovered a mysterious “bump” in the ...

In µSR spectroscopy, a unique particle called muonium (Mu) is formed when a muon captures an electron. This muonium reacts with the phosphorus compound, creating a highly reactive radical at the ...

Researchers have uncovered a way to manipulate DNA at the atomic level using electric field gradients to control nitrogen nuclear spins. Their findings suggest that DNA could be used as both a storage ...

Researchers are exploring multi-level atomic interactions to enhance quantum entanglement. Using metastable states in strontium, they demonstrate how photon exchange can sustain correlations, offering ...

Muon spin rotation (µSR) spectroscopy is a powerful technique that helps to study the behavior of materials at the atomic ...

Philip Ball looks at how a little-known paper by Niels Bohr demonstrates the turmoil in physics on the brink of quantum ...

Muon spin rotation (µSR) spectroscopy is a powerful technique used to study the behavior of materials at the atomic level. In ...

Interactions between atoms and light rule the behavior of our physical world, but at the same time, can be extremely complex.

Now, in a recent study published in Physical Review Letters, Rey and JILA and NIST Fellow James K. Thompson, along with ...

The tale of splitting the atom isn't just about America—it's a journey from New Zealand to Manchester, led by the brilliant ...

Physicists from both New Zealand and Britain have been credited with splitting the atom — but there is consensus that it was ...

In Bohr’s 1913 papers he envisaged atoms along the lines established by his mentor Ernest Rutherford: dense nuclei orbited by electrons. Bohr’s idea was that the energies and frequencies of the ...