Local operation on identical particles systems

O. Rendón; E. Medina

doi:10.1088/1742-6596/338/1/012015

Local operation on identical particles systems

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Resumen

We describe identical particles through their extrinsic physical properties and operationally with an operator of selective measure M_m. The operator M_m is formed through non-symmetrized tensor product of one-particle measurement operators, so that it does not commute with the permutation operator P. This operator of selective measure M_m is a local operation (LO) if it acts on physical systems of distinguishable particles, but when M_m acts on the Hilbert sub-space of a system with a constant number of indistinguishable particles this can generate entanglement in the system. We will call entanglement by measurement (EbM), this way of producing entanglement. In this framework, we show entangle production examples for systems of two fermions (or bosons) when the operator M_m has two-particle events that are not mutually exclusive.

Idioma original	Inglés
Número de artículo	012015
Publicación	Journal of Physics: Conference Series
Volumen	338
N.º	1
DOI	https://doi.org/10.1088/1742-6596/338/1/012015
Estado	Publicada - 2012
Publicado de forma externa	Sí
Evento	Advanced Many-Body and Statistical Methods in Mesoscopic Systems - Constanta, Rumanía Duración: 27 jun. 2011 → 2 jul. 2011

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N2 - We describe identical particles through their extrinsic physical properties and operationally with an operator of selective measure Mm. The operator Mm is formed through non-symmetrized tensor product of one-particle measurement operators, so that it does not commute with the permutation operator P. This operator of selective measure Mm is a local operation (LO) if it acts on physical systems of distinguishable particles, but when Mm acts on the Hilbert sub-space of a system with a constant number of indistinguishable particles this can generate entanglement in the system. We will call entanglement by measurement (EbM), this way of producing entanglement. In this framework, we show entangle production examples for systems of two fermions (or bosons) when the operator Mm has two-particle events that are not mutually exclusive.

AB - We describe identical particles through their extrinsic physical properties and operationally with an operator of selective measure Mm. The operator Mm is formed through non-symmetrized tensor product of one-particle measurement operators, so that it does not commute with the permutation operator P. This operator of selective measure Mm is a local operation (LO) if it acts on physical systems of distinguishable particles, but when Mm acts on the Hilbert sub-space of a system with a constant number of indistinguishable particles this can generate entanglement in the system. We will call entanglement by measurement (EbM), this way of producing entanglement. In this framework, we show entangle production examples for systems of two fermions (or bosons) when the operator Mm has two-particle events that are not mutually exclusive.

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Local operation on identical particles systems

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