The dynamics of two entangled qubits exposed to classical noise: role of spatial and temporal noise correlations

Piotr Szańkowski; Marek Trippenbach; Łukasz Cywiński; Yehuda B. Band

doi:10.1007/s11128-015-1044-7

The dynamics of two entangled qubits exposed to classical noise: role of spatial and temporal noise correlations

Piotr Szańkowski, Marek Trippenbach, Łukasz Cywiński, Yehuda B. Band

Department of Chemistry

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

We investigate the decay of two-qubit entanglement caused by the influence of classical noise. We consider the whole spectrum of cases ranging from independent to fully correlated noise affecting each qubit. We take into account different spatial symmetries of noises, and the regimes of noise autocorrelation time. The latter can be either much shorter than the characteristic qubit decoherence time (Markovian decoherence), or much longer (approaching the quasi-static bath limit). We express the entanglement of two-qubit states in terms of expectation values of spherical tensor operators which allows for transparent insight into the role of the symmetry of both the two-qubit state and the noise for entanglement dynamics.

Original language	English
Pages (from-to)	3367-3397
Number of pages	31
Journal	Quantum Information Processing
Volume	14
Issue number	9
DOIs	https://doi.org/10.1007/s11128-015-1044-7
State	Published - 10 Sep 2015

Keywords

Classical noise
Correlated noises
Entanglement dynamics
Two-qubit entanglement

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Statistical and Nonlinear Physics
Theoretical Computer Science
Signal Processing
Modeling and Simulation
Electrical and Electronic Engineering

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10.1007/s11128-015-1044-7

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abstract = "We investigate the decay of two-qubit entanglement caused by the influence of classical noise. We consider the whole spectrum of cases ranging from independent to fully correlated noise affecting each qubit. We take into account different spatial symmetries of noises, and the regimes of noise autocorrelation time. The latter can be either much shorter than the characteristic qubit decoherence time (Markovian decoherence), or much longer (approaching the quasi-static bath limit). We express the entanglement of two-qubit states in terms of expectation values of spherical tensor operators which allows for transparent insight into the role of the symmetry of both the two-qubit state and the noise for entanglement dynamics.",

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The dynamics of two entangled qubits exposed to classical noise: role of spatial and temporal noise correlations

Abstract

Keywords

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