Related papers: Sufficient conditions, lower bounds and trade-off relations for quantumness in Kirkwood-Dirac quasiprobability

Sufficient conditions, lower bounds and trade-off relations for quantumness in Kirkwood-Dirac quasiprobability

URL: http://arxiv.org/abs/2405.08324v1
Date: Tue, 14 May 2024 05:44:07 GMT
Title: Sufficient conditions, lower bounds and trade-off relations for quantumness in Kirkwood-Dirac quasiprobability
Authors: Agung Budiyono,
Abstract summary: Kirkwood-Dirac (KD) quasiprobability is a quantum analog of classical phase space probability. It offers an informationally complete representation of quantum state. How does such form of quantumness comply with the uncertainty principle which also arise from quantum noncommutativity?
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Kirkwood-Dirac (KD) quasiprobability is a quantum analog of classical phase space probability. It offers an informationally complete representation of quantum state wherein the quantumness associated with quantum noncommutativity manifests in its nonclassical values, i.e., the nonreal and/or negative values of the real part. This naturally raises a question: how does such form of quantumness comply with the uncertainty principle which also arise from quantum noncommutativity? Here, first, we obtain sufficient conditions for the KD quasiprobability defined relative to a pair of PVM (projection-valued measure) bases to have nonclassical values. Using these nonclassical values, we then introduce two quantities which capture the amount of KD quantumness in a quantum state relative to a single PVM basis. They are defined respectively as the nonreality, and the classicality which captures both the nonreality and negativity, of the associated KD quasiprobability over the PVM basis of interest, and another PVM basis, and maximized over all possible choices of the latter. We obtain their lower bounds, and derive trade-off relations respectively reminiscent of the Robertson and Robertson-Schr\"odinger uncertainty relations but with lower bounds maximized over the convex sets of Hermitian operators whose complete sets of eigenprojectors are given by the PVM bases. We discuss their measurement using weak value measurement and classical optimization, and suggest information theoretical and operational interpretations in terms of optimal estimation of the PVM basis and state disturbance.

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