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Operational effects of the UNOT gate on classical and quantum correlations

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arxiv 1711.04937 v1 pith:WBIHUEIP submitted 2017-11-14 quant-ph physics.atom-ph

Operational effects of the UNOT gate on classical and quantum correlations

classification quant-ph physics.atom-ph
keywords classicalgatequantumunotcorrelationsflipsprocessingaffect
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The NOT gate that flips a classical bit is ubiquitous in classical information processing. However its quantum analogue, the universal NOT (UNOT) gate that flips a quantum spin in any alignment into its antipodal counterpart is strictly forbidden. Here we explore the connection between this discrepancy and how UNOT gates affect classical and quantum correlations. We show that while a UNOT gate always preserves classical correlations between two spins, it can non-locally increase or decrease their shared discord in ways that allow violation of the data processing inequality. We experimentally illustrate this using a multi-level trapped \Yb ion that allows simulation of anti-unitary operations.

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