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

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 ...

Scientists at Oxford have taken a massive leap toward large-scale quantum computing by successfully linking separate quantum ...

In a milestone that brings quantum computing tangibly closer to large-scale practical use, scientists at Oxford University ...

Photo: Niels Bohr's research notes for his new atomic theory Rutherford's find ... The shells in which electrons orbit have different quantum numbers and hold only certain numbers of electrons ...

Sub atomic particles that is ... These were developed via the quantum numbers – a result of [Schrodinger’s] wave mechanics. Quantum Tunneling can now be explained by the very small amplitude ...

Researchers at the University of Basel have shown that quantum systems can have antagonistic interactions, too—one agent ...

Combining expertise in experimental physics, quantum sensing and theoretical modeling, the team created a method capable of capturing single atomic signals with extraordinary precision.