Statistical mixtures of states can be more quantum than their superpositions: Comparison of nonclassicality measures for single-qubit states

Miranowicz, Adam; Bartkiewicz, Karol; Pathak, Anirban; Peřina, Jan; Chen, Yueh-Nan; Nori, Franco

doi:10.1103/physreva.91.042309

Cited by 73 publications

(99 citation statements)

References 77 publications

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“…This connection should also be useful in calculating the maximum violation possible for a given quantum evolution, as well as determining the measurements required to obtain this value. This result also ties the experimentally-testable quantum witness to more formally-defined measures of "quantumness" [13,21]. Indeed, the trace norm itself has recently been considered as a measure of quantumness [12,13], were the density matrix under scrutiny is compared with a particular set of classical states.…”

Section: Discussionmentioning

confidence: 98%

“…This result also ties the experimentally-testable quantum witness to more formally-defined measures of "quantumness" [13,21]. Indeed, the trace norm itself has recently been considered as a measure of quantumness [12,13], were the density matrix under scrutiny is compared with a particular set of classical states. The quantum witness studied here can thus be seen as an indicator of this class in which the comparator state is the very specific state that results from the witness' blind measurement.…”

Section: Discussionmentioning

confidence: 98%

“…In deriving Eq. (4), we shall show how the quantum witness is related to the trace distance [11], a measure of distance between two density matrices, recently studied itself as a measure of "quantumness" [12,13]. Equation (4) also opens up the possibility of using the quantum witness as a dimension witness [14,15] for quantummechanical systems.…”

Section: Introductionmentioning

confidence: 99%

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Maximum violations of the quantum-witness equality

Schild

Emary

2015

Phys. Rev. A

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We consider the quantum-witness test of macroscopic realism and derive an upper bound for possible violations of this equality due to quantum mechanics. The bound depends only on the number of possible outcomes for the blind measurement at the heart of the witness protocol. Mirroring recent results for the related Leggett-Garg inequality, we show that quantum mechanics can saturate the algebraic bound for large systems. We also establish a connection between the quantum witness and the trace distance between density matrices, and discuss how the quantum witness can be used to obtain a bound on the Hilbert-space dimension of the system under study.

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Section: Discussionmentioning

confidence: 98%

Section: Discussionmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 99%

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Maximum violations of the quantum-witness equality

Schild

Emary

2015

Phys. Rev. A

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“…Specifically, at the output of the beam-splitter a two-mode entangled state is obtained if and only if the state (other than the vacuum state) fed into the input is a single-mode nonclassical state. Thus, the nonclassicality of the single mode input state gets transferred to a two mode entangled state, and one can try to measure the nonclassicality of the input state by measuring the entanglement of the output state [32,34]. For a particular beam-splitter setting, the behavior of the nonclassical properties of the output state is entirely controlled by the input state parameters.…”

Section: Nonclassicality For a Single Input State At Beam-splittermentioning

confidence: 99%

“…The nonclassical potential for the single mode input state ρ is defined to be the amount of nonclassicality of the output state ρ out . Consequently, the concurrence potential (CP) and negativity potential (NP) are defined as [32] CP (ρ) = C(ρ out ) N P (ρ) = N (ρ out ).…”

Section: Entanglement Measuresmentioning

confidence: 99%

Interplay between nonclassicality and PT symmetry in an effective two-level system with open system effects

2019

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A three level atom in Λ configuration is reduced to an effective two level system, under appropriate conditions, and its PT symmetric properties are investigated. This effective qubit system when subjected to a beam-splitter type of interaction, it provides the scope of directly (indirectly) probing the nonclassical properties of the output (input) state. Here, we study nonclassical properties of the output state by using some well known measures of nonclassical correlations like the measurement induced disturbance, concurrence and negativity. The nonclassical features are found to enhance in the PT symmetric (PTS) phase compared to the PT symmetry broken (PTSB) phase. Further, the output ports of the beam-splitter are subjected to different quantum noise channels, both non-Markovian, e.g., random telegraph noise as well as Markovian, e.g., phase damping, and amplitude damping noise. The application of noise channels is found to decrease the degree of nonclassicality, though continuing to exhibit distinct behavior in PTS and PTSB phases, with the dominant behavior appearing in the former case.

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Lower‐ and Higher‐Order Nonclassical Properties of Photon Added and Subtracted Displaced Fock States

et al. 2019

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Nonclassical properties of photon added and subtracted displaced Fock states are studied using various witnesses of lower-and higher-order nonclassicality. Compact analytic expressions are obtained for the nonclassicality witnesses. Using those expressions, it is established that these states and the states that can be obtained as their limiting cases (except coherent states) are highly nonclassical as they show the existence of lower-and higher-order antibunching and sub-Poissonian photon statistics, in addition to the nonclassical features revealed through the Mandel Q M parameter, zeros of Q function, Klyshko's criterion, and Agarwal-Tara criterion. Further, some comparison between the nonclassicality of photon added and subtracted displaced Fock states have been performed using witnesses of nonclassicality. This has established that between the two types of non-Gaussianity inducing operations (i.e., photon addition and subtraction) used here, photon addition influences the nonclassical properties more strongly. Further, optical designs for the generation of photon added and subtracted displaced Fock states from squeezed vacuum state have also been proposed.

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Statistical mixtures of states can be more quantum than their superpositions: Comparison of nonclassicality measures for single-qubit states

Cited by 73 publications

References 77 publications

Maximum violations of the quantum-witness equality

Maximum violations of the quantum-witness equality

Interplay between nonclassicality and PT symmetry in an effective two-level system with open system effects

Lower‐ and Higher‐Order Nonclassical Properties of Photon Added and Subtracted Displaced Fock States

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