ABSTRACT. Instantaneous teleportation – the transmission and reconstruction over arbitrary distances of an unknown state without any type of disambiguation based on classical bits – is demonstrated, supporting the fact that instantaneous information transfer via an Einstein-Podolsky-Rosen channel is definitely possible. In other words, quantum correlations can be used to send signals, reinforcing the existence of an action at a distance, hence, paving the way for a better understanding of quantum entanglement and its consequent impact on Quantum Internet, as well as, on a realistic relationship between Special Relativity and Quantum Mechanics.
ABSTRACT. Instantaneous teleportation – the transmission and reconstruction over arbitrary distances of an unknown state without any type of disambiguation based on classical bits –
ABSTRACT. During the last century, entanglement was the bone of contention between the two main pillars of Physics: General Relativity (GR) and Quantum Mechanics (QM).
ABSTRACT. During the last 25 years the scientific community has coexisted with the most fascinating 9 protocol due to Quantum Physics: quantum teleportation (QTele), which
ABSTRACT. In this draft, we present a new technique of quantum key distribution, where the first time the initial key is teleported, and after that,
ABSTRACT. A simplified version of quantum teleportation protocol is presented here. Its experimental confirmation will have deep implications for a better understanding of quantum entanglement
ABSTRACT. Quantum stretching is a technique to make quasi-copies of an arbitrary qubit without violating the No-Cloning Theorem. These quasi-copies of the original qubit contain
