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Characterizing the Quantum Non-locality by the Mathematics of Magic Square

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arxiv 1909.13498 v1 pith:YOAZDRPE submitted 2019-09-30 quant-ph

Characterizing the Quantum Non-locality by the Mathematics of Magic Square

classification quant-ph
keywords non-localitybellquantumrelationtensoruncertaintycharacterizingmagic
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By constructing the quantum state in high-dimensional probability tensor, we find the quantum magic square(QMS) may stand as an ideal means of characterizing the non-local phenomena, i.e. the separability, entanglement, two/one-way steering, and Bell non-locality, etc. In this scheme, different types of non-locality exhibit distinctive inner structures of the probability tensor, which are observable in form of the partial sum of the tensor components. In application, we prove the Bell and GHZ theorems, and demonstrate that the uncertainty relation may rate the non-locality, from Bell locality to separability. We derive a conditional majorization uncertainty relation, which is superior to the steering criterion previously thought to be optimal for the uncertainty relation.

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