Aggregation Operations from Quantum Computing
... modeling in human being’s reasoning, while the latter studies the uncertainty of the real world considering the principles of Quantum Mechanics (QM ). Many similarities between these two areas of research have been highlighted in several scientific papers [1], [2], [3], [4] and [5]. In this context, ...
... modeling in human being’s reasoning, while the latter studies the uncertainty of the real world considering the principles of Quantum Mechanics (QM ). Many similarities between these two areas of research have been highlighted in several scientific papers [1], [2], [3], [4] and [5]. In this context, ...
Quantum Computing
... be expressed and manipulated, rather than particles to move. For example, the best way to state exactly what can and cannot travel faster than light is to identify information as the speed-limited entity. In quantum mechanics, it is highly significant that the state vector must not contain, whether ...
... be expressed and manipulated, rather than particles to move. For example, the best way to state exactly what can and cannot travel faster than light is to identify information as the speed-limited entity. In quantum mechanics, it is highly significant that the state vector must not contain, whether ...
Quantum Money from Hidden Subspaces
... says that there is no physical procedure that takes as input an unknown2 quantum pure state |ψi, and that produces as output two unentangled copies of |ψi, or even a close approximation thereof. The No-Cloning Theorem is closely related to the uncertainty principle, which says that there exist “comp ...
... says that there is no physical procedure that takes as input an unknown2 quantum pure state |ψi, and that produces as output two unentangled copies of |ψi, or even a close approximation thereof. The No-Cloning Theorem is closely related to the uncertainty principle, which says that there exist “comp ...
Quantum Correlations in Information Theory
... which are shared, for example, between the sender and the receiver of a message. However, it has been recently shown that entanglement is not the most general form of quantum correlations. Even unentangled states of compound systems have a quantum character, as their subsystems can share truly quant ...
... which are shared, for example, between the sender and the receiver of a message. However, it has been recently shown that entanglement is not the most general form of quantum correlations. Even unentangled states of compound systems have a quantum character, as their subsystems can share truly quant ...
