Quantum error correction
... other systems give rise to a full set of quantum phenomena, many of which have no correspondence in classical information theory. These phenomena include decoherence, as a consequence of entanglement. Decoherence can also be understood as “information leakage”, i.e., knowledge of an event is transfe ...
... other systems give rise to a full set of quantum phenomena, many of which have no correspondence in classical information theory. These phenomena include decoherence, as a consequence of entanglement. Decoherence can also be understood as “information leakage”, i.e., knowledge of an event is transfe ...
How We May Be Free From Physics - Philsci
... hard determinism and compatibilism are not the negation of each other. Hard determinism is the position that says if determinism is true, there is no free will (no actions are chosen freely) and hence no one is morally responsible for one's actions, while compatibilism says that even if determinism ...
... hard determinism and compatibilism are not the negation of each other. Hard determinism is the position that says if determinism is true, there is no free will (no actions are chosen freely) and hence no one is morally responsible for one's actions, while compatibilism says that even if determinism ...
Quantum Theory: a Pragmatist Approach
... interpretation directly to representation: it assumes that the theory offers representations and/or descriptions of the physical world. In (Healey [1989], p.6) I expressed sympathy for such a tie as follows: ‘I should like to add [...] that a satisfactory interpretation of quantum mechanics should m ...
... interpretation directly to representation: it assumes that the theory offers representations and/or descriptions of the physical world. In (Healey [1989], p.6) I expressed sympathy for such a tie as follows: ‘I should like to add [...] that a satisfactory interpretation of quantum mechanics should m ...
The world according to quantum mechanics (or, the 18 errors of
... for classical physics, it is equally negative for quantum physics. QM concerns statistical correlations between (observer-independent) facts, and these correlations warrant interpreting the facts as indicative of properties. That is, they warrant the existence of a physical system to which the indic ...
... for classical physics, it is equally negative for quantum physics. QM concerns statistical correlations between (observer-independent) facts, and these correlations warrant interpreting the facts as indicative of properties. That is, they warrant the existence of a physical system to which the indic ...
quantum teleportation
... entangled particles. These entangled particles will form a pathway for the instantaneous data transfer of the information of the particle. However for the verification of quantum teleportation it classical information line between the sending and the receiving station is necessary, which excludes in ...
... entangled particles. These entangled particles will form a pathway for the instantaneous data transfer of the information of the particle. However for the verification of quantum teleportation it classical information line between the sending and the receiving station is necessary, which excludes in ...