Tripartite entropic uncertainty relation under phase decoherence

Tripartite entropic uncertainty relation under phase decoherence

We formulate the tripartite entropic uncertainty relation and predict its lower bound in a three-qubit Heisenberg XXZ spin chain when measuring an arbitrary pair of incompatible observables on one qubit while the other two are served as quantum memories. Our study reveals that the entanglement betwe...

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Veröffentlicht in:Scientific reports 2021-06, Vol.11 (1), p.11830-11830, Article 11830
Hauptverfasser: Abdelghany, R. A., Mohamed, A.-B. A., Tammam, M., Kuo, Watson, Eleuch, H.
Format: Artikel
Sprache:eng
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639/766/483/2802
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Entropy
Humanities and Social Sciences
Mathematics
multidisciplinary
Science
Science (multidisciplinary)
Standard deviation
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Zusammenfassung:We formulate the tripartite entropic uncertainty relation and predict its lower bound in a three-qubit Heisenberg XXZ spin chain when measuring an arbitrary pair of incompatible observables on one qubit while the other two are served as quantum memories. Our study reveals that the entanglement between the nearest neighbors plays an important role in reducing the uncertainty in measurement outcomes. In addition we have shown that the Dolatkhah’s lower bound (Phys Rev A 102(5):052227, 2020) is tighter than that of Ming (Phys Rev A 102(01):012206, 2020) and their dynamics under phase decoherence depends on the choice of the observable pair. In the absence of phase decoherence, Ming’s lower bound is time-invariant regardless the chosen observable pair, while Dolatkhah’s lower bound is perfectly identical with the tripartite uncertainty with a specific choice of pair.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-021-90689-3