Fidelity based unitary operation-induced quantum correlation for continuous-variable systems

Abstract

We propose a measure of nonclassical correlation N F G in terms of local Gaussian unitary operations based on square of the fidelity F for bipartite continuous-variable systems. This quantity is easier to calculate or estimate and is a remedy for the local ancilla problem associated with the geometric measurement-induced nonlocality. A simple computation formula of N F G for any (1+1)-mode Gaussian states is presented and an estimation of N F G for any (n+m)-mode Gaussian states is given. For any (1+1)-mode Gaussian states, N F G does not increase after performing a local Gaussian channel on the unmeasured subsystem. Comparing N F G(AB) in scale with other quantum correlations such as Gaussian geometric discord for two-mode symmetric squeezed thermal states reveals that N F G is much better in detecting quantum correlations of Gaussian states.