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

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

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

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.

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.

The kilonova briefly mimicked the conditions immediately following the Big Bang, and allowed scientists to confirm the source ...

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

In a recent article, researchers investigated the electronic and electrochemical performance of pristine and endohedral doped Ge12C12 and Si12C12 nanocages for use as Li-ion battery anodes, with ...

New observations of microscopic vortices confirm the existence of a paradoxical phase of matter that may also arise inside ...

To expand the potential use of diamond in semiconductor and quantum technologies, researchers are developing improved ...

By simulating a magnetic field on a superconducting quantum computer, researchers can explore the intricate properties of ...

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