Trade-off coding for quantum communication provides more benefits than previously thought
Physicists extend entanglement in Einstein experiment
The quantum world writ large: Using short optical pulses to study macroscopic quantum behavior
Proposed experiment offers new way to generate macroscopic entanglement
Extending Einstein's spooky action for use in quantum networks
An international team, including researchers from Swinburne University of Technology, has demonstrated that the 1935 Einstein-Podolsky-Rosen (EPR) quantum mechanics paradox may be extended to more than two ...
Quantum correlations -- without entanglement
Quantum computer as detector shows space is not squeezed
Ever since Einstein proposed his special theory of relativity in 1905, physics and cosmology have been based on the assumption that space looks the same in all directions - that it's not squeezed in one direction ...
3,000 atoms entangled with a single photon
Physicists from MIT and the University of Belgrade have developed a new technique that can successfully entangle 3,000 atoms using only a single photon. The results, published today in the journal Nature, repres ...
Simplifying the process of detecting genuine multiparticle entanglement
Entanglement between macroscopic objects generated by dissipation
Physicists describe method to observe timelike entanglement
Entanglement can help in classical communication
New theory suggests way to teleport energy long distances
Entanglement on a chip: Breakthrough promises secure communications and faster computers
Unlike Bilbo's magic ring, which entangles human hearts, engineers have created a new micro-ring that entangles individual particles of light, an important first step in a whole host of new technologies.