Berry used mathematical means to investigate what would happen to the neutron if the direction of the magnetic field changed ...

A simulation by US theoretical physicists has provided the first fully microscopic characterization of the moment an atom ...

With utmost precision: Using special nanographene molecules, the researchers were able to realize a theoretical model from quantum physics. (Image: Empa) Their results have been published in the ...

Typically, molecules considered for quantum applications aren’t as big as Buckminsterfullerene. “The overwhelming majority of ...

New superconducting material could pave the way for the next stage in quantum computing by behaving as qubits in a more powerful system, scientists have proposed.

In contrast, quantum computers can model quantum mechanical interactions ... By modeling electron and atom behavior with extreme precision, quantum systems could help researchers design new ...

In a new study published in Nature Communications, scientists have implemented the topologically ordered time crystal on a ...

An elusive particle that first formed in the hot, dense maelstrom of the early universe has puzzled physicists for decades.

A new study challenges traditional spin-statistics assumptions in ion-atom charge exchanges, revealing unexpected dynamics in C3+ and helium collisions and opening new avenues in quantum reactivity.

Their innovative theoretical approach aims to boost the reliability of quantum information storage while substantially ...

Since the first X-ray image of a comet was reported using an X-ray telescope in 1996, the investigation of charge exchange in ...