M
Margaret D. Reid
Researcher at Swinburne University of Technology
Publications - 165
Citations - 7199
Margaret D. Reid is an academic researcher from Swinburne University of Technology. The author has contributed to research in topics: Quantum entanglement & EPR paradox. The author has an hindex of 38, co-authored 157 publications receiving 6198 citations. Previous affiliations of Margaret D. Reid include University of Queensland & IBM.
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Bell inequalities for continuous-variable measurements
TL;DR: In this article, a comparison of local hidden-variable theories using measurements with continuous-variable (CV) outcomes is presented, and the results show that the moment-based Cavalcanti-Foster-Reid-Drummond inequalities with an optimal function have greater robustness to both loss and noise.
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Violation of multiparticle Bell inequalities for low- and high-flux parametric amplification using both vacuum and entangled input states
TL;DR: In this paper, it is shown how polarization measurements on the output fields generated by parametric down conversion will reveal a violation of multiparticle Bell inequalities, in the regime of both low and high output intensity.
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Squeezing of quantum fluctuations via atomic coherence effects.
TL;DR: In the three-level medium a (3) may be generated by atomic coherence effects which involve negligible saturation and are essentially "spontaneous-emission-free," which offers considerable experimental advantages for the generation of squeezed states of light via four-wave mixing or optical bistability.
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Spin entanglement, decoherence and Bohm's EPR paradox.
TL;DR: For a macroscopic number of particles prepared in a correlated state, spin entanglement and the EPR paradox can be demonstrated using the criteria for efficiencies eta > 1/3 and eta < 2/3 respectively, which indicates a surprising insensitivity to loss decoherence, in a Macroscopic system of ultra-cold atoms or photons.
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Quantifying the mesoscopic quantum coherence of approximate NOON states and spin-squeezed two-mode Bose-Einstein condensates
TL;DR: In this article, the authors examine how to signify and quantify the mesoscopic quantum coherence of approximate two-mode NOON states and spin-squeezed Bose-Einstein condensates.