For decades, teleportation was only a concept found in science fiction perfected by Star Trek’s venerable transporter beam.

Quantum teleportation could unlock powerful new tools—like secure messaging, ultra-fast computing links, and distributed quantum processors. Still, no one had proven it could work over busy ...

In a milestone for quantum computing, researchers at ETH Zurich have demonstrated quantum teleportation in a solid-state circuit. Even more, they've broken something of a quantum speed record ...

Qunnect’s quantum networking products have a standard server rack form factor and are designed to operate at room temperature ...

Quantum teleportation, once a staple of sci-fi lore, is now edging closer to scientific fact. What seemed impossible a decade ago is now happening in laboratories, thanks to rapid advances in ...

Quantum teleportation involves two distant, entangled particles in which the state of a third particle instantly "teleports" its state to the two entangled particles.

Researchers report having achieved quantum teleportation from a photon to a solid-state qubit over a distance of 1km, with a novel approach using multiplexed quantum memories.

“Teleportation is a very inspiring word,” says Maria Spiropulu, the Shang-Yi Ch’en professor of physics at the California Institute of Technology, and director of the INQNET quantum network ...

Quantum teleportation is a phenomenon in which the quantum states of one particle can be transferred to another, distant particle without anything physical traveling between them.

SCIENTISTS FIRST SHOWED TELEPORTATION WAS POSSIBLE back in 1993, when a team from IBM published a paper about teleporting a quantum state—rather than just an object—in the journal Physical ...

Quantum teleportation doesn't work like that. Instead, you need to pre-position quantum objects at both the source and receiving ends of the teleport and entangle them.

Quantum complexity could solve a wormhole paradox. Juan Maldacena at the Institute for Advanced Study, in Princeton, US, who was not involved in the research, describes the work as an interesting ...