Detecting multipartite spatial entanglement with modular variables

M. R. Barros; O. J. Farías; A. Keller; T. Coudreau; P. Milman; S. P. Walborn

doi:10.1103/PhysRevA.92.022308

Detecting multipartite spatial entanglement with modular variables

M. R. Barros, O. J. Farías, A. Keller, T. Coudreau, P. Milman, S. P. Walborn

Producció científica: Article en revista indexada › Article › Avaluat per experts

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Interference phenomena of quantum systems have been studied in the context of fundamental aspects of quantum physics and are considered a necessary resource for quantum information. Here we investigate the interference of multiparticle wave packets in terms of modular variables, which is a natural and convenient way to describe two or more interfering wave functions. Through the modular-variable description, interesting phenomena appear such as the complementarity between the number of wave packets and the width of the peaks of the momentum distribution. In the multipartite case, this effect produces quantum entanglement. We derive entanglement criteria that test for bipartite entanglement in generic bipartitions of a multipartite quantum state and use these criteria to test for genuine D-partite entanglement.

Idioma original	Anglès
Número d’article	022308
Revista	Physical Review A - Atomic, Molecular, and Optical Physics
Volum	92
Número	2
DOIs	https://doi.org/10.1103/PhysRevA.92.022308
Estat de la publicació	Publicada - 5 d’ag. 2015
Publicat externament	Sí

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title = "Detecting multipartite spatial entanglement with modular variables",

abstract = "Interference phenomena of quantum systems have been studied in the context of fundamental aspects of quantum physics and are considered a necessary resource for quantum information. Here we investigate the interference of multiparticle wave packets in terms of modular variables, which is a natural and convenient way to describe two or more interfering wave functions. Through the modular-variable description, interesting phenomena appear such as the complementarity between the number of wave packets and the width of the peaks of the momentum distribution. In the multipartite case, this effect produces quantum entanglement. We derive entanglement criteria that test for bipartite entanglement in generic bipartitions of a multipartite quantum state and use these criteria to test for genuine D-partite entanglement.",

author = "Barros, {M. R.} and Far{\'i}as, {O. J.} and A. Keller and T. Coudreau and P. Milman and Walborn, {S. P.}",

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AU - Barros, M. R.

AU - Farías, O. J.

AU - Keller, A.

AU - Coudreau, T.

AU - Milman, P.

AU - Walborn, S. P.

PY - 2015/8/5

Y1 - 2015/8/5

N2 - Interference phenomena of quantum systems have been studied in the context of fundamental aspects of quantum physics and are considered a necessary resource for quantum information. Here we investigate the interference of multiparticle wave packets in terms of modular variables, which is a natural and convenient way to describe two or more interfering wave functions. Through the modular-variable description, interesting phenomena appear such as the complementarity between the number of wave packets and the width of the peaks of the momentum distribution. In the multipartite case, this effect produces quantum entanglement. We derive entanglement criteria that test for bipartite entanglement in generic bipartitions of a multipartite quantum state and use these criteria to test for genuine D-partite entanglement.

AB - Interference phenomena of quantum systems have been studied in the context of fundamental aspects of quantum physics and are considered a necessary resource for quantum information. Here we investigate the interference of multiparticle wave packets in terms of modular variables, which is a natural and convenient way to describe two or more interfering wave functions. Through the modular-variable description, interesting phenomena appear such as the complementarity between the number of wave packets and the width of the peaks of the momentum distribution. In the multipartite case, this effect produces quantum entanglement. We derive entanglement criteria that test for bipartite entanglement in generic bipartitions of a multipartite quantum state and use these criteria to test for genuine D-partite entanglement.

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Detecting multipartite spatial entanglement with modular variables

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