Emergence of maximal hidden quantum correlations and its trade-off with
the filtering probability in dissipative two-qubit systems
- URL: http://arxiv.org/abs/2005.06339v2
- Date: Mon, 9 May 2022 19:36:50 GMT
- Title: Emergence of maximal hidden quantum correlations and its trade-off with
the filtering probability in dissipative two-qubit systems
- Authors: Andr\'es F. Ducuara and Cristian E. Susa and John H. Reina
- Abstract summary: We show regimes where three quantum correlations can be extracted by means of local filtering operations.
We furthermore show that there actually exists a trade-off between the amount of quantum correlations which can be extracted and the filtering probability with which such protocol can be implemented.
- Score: 0.0
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: We investigate the behaviour of quantum CHSH-nonlocality, $\rm F_3$-steering,
and usefulness for teleportation in an interacting two-qubit dissipative
system. We show regimes where these three quantum correlations can be extracted
by means of local filtering operations, despite them not being displayed in the
bare natural time evolution. Moreover, we show the existence of local hidden
state (LHS) and local hidden variable (LHV) models for some states during the
dynamics and thus, showing that apparently-useless physical systems could still
exhibit quantum correlations, which are hidden from us, but that can still be
revealed by means of local filtering operations and therefore, displaying the
phenomenon of \emph{hidden} quantum correlations. We furthermore show that
there actually exists a trade-off between the amount of quantum correlations
which can be extracted and the filtering probability with which such protocol
can be implemented. From a theoretical point of view, the existence of such
trade-off imposes a fundamental limit to the extraction of quantum correlations
by local filtering operations. From a practical point of view on the other
hand, the results here presented determine the amount of resources that should
be invested in order to extract such maximal hidden quantum correlations.
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