Quantum entanglement
Quantum ‘magic’ could explain how space and time emerged
Physicists relate the quantum property of ‘magic’ to the chaotic nature of black holes for the first time.
There is no second law of entanglement after all, suggests a study
Entanglement is even richer than we have given it credit for.
A quantum experiment to observe wormhole dynamics
The research is a step toward studying quantum gravity in the lab.
A negative correlation is demonstrated between the two spins of an entangled pair of electrons
Physicists used spin filters made of nanomagnets and quantum dots.
A new model in optical fibers advances quantum sensing
This significantly reduced the limitations of internal loss and phase noise.
Scientists successfully combined two of the spookiest features of quantum mechanics
An Entangled Matter-wave Interferometer: Now with Double the Spookiness!
How do interparticle interactions affect dynamical localization?
A different kind of chaos.
Scientists demonstrated a network of two entangled optical atomic clocks
This two-node network could be extended to additional nodes.
An approach to quantum key distribution based on high-quality quantum entanglement
A key role for quantum entanglement.
A new approach for processing quantum information
Scientists get around error problems by moving, and connecting atoms in mid-computation.
Scientists documented a never-before-seen state of matter -quantum spin liquids
Scientists observed a state of matter predicted and hunted for 50 years but never previously observed.
Scientists detected spooky quantum entanglement in solid materials
Scientists demonstrate how quantum entanglement can be witnessed in the quasi-1D Heisenberg antiferromagnet.