
Is Instantaneous Quantum Internet Possible?
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). This began in 1935 with the Einstein-Podolsky-Rosen paradox (EPR paradox) which concluded that although Quantum Mechanics is not wrong, it is an incomplete theory to represent physical reality. In this paper it is demonstrated that some byproducts resulting from entanglement and which we will call avatars act as a hinge that link both theories making the completeness of QM clear. Moreover, a thorough analysis of the non-locality of this effect will be carried out. Besides, it is demonstrated that entanglement is an instantaneous phenomenon and that it does not require the use of a superluminal signaling for this purpose. Finally, the avatars will also appear in each wormhole resulting from an entanglement process (WREP) demonstrating that they are traversable with an equivalent path of null length which can be crossed in a null time with all that this implies in Quantum Communications.
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