Continuous-variable spatial entanglement for bright optical beams

Magnus T.L. Hsu; Warwick P. Bowen; Nicolas Treps; Ping Koy Lam

doi:10.1103/PhysRevA.72.013802

Continuous-variable spatial entanglement for bright optical beams

Magnus T.L. Hsu, Warwick P. Bowen, Nicolas Treps, Ping Koy Lam

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

24 Citations (Scopus)

Abstract

A light beam is said to be position squeezed if its position can be determined to an accuracy beyond the standard quantum limit. We identify the position and momentum observables for bright optical beams and show that position and momentum entanglement can be generated by interfering two position, or momentum, squeezed beams on a beam splitter. The position and momentum measurements of these beams can be performed using a homodyne detector with local oscillator of an appropriate transverse beam profile. We compare this form of spatial entanglement with split detection-based spatial entanglement.

Original language	English
Article number	013802
Journal	Physical Review A - Atomic, Molecular, and Optical Physics
Volume	72
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevA.72.013802
Publication status	Published - Jul 2005

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abstract = "A light beam is said to be position squeezed if its position can be determined to an accuracy beyond the standard quantum limit. We identify the position and momentum observables for bright optical beams and show that position and momentum entanglement can be generated by interfering two position, or momentum, squeezed beams on a beam splitter. The position and momentum measurements of these beams can be performed using a homodyne detector with local oscillator of an appropriate transverse beam profile. We compare this form of spatial entanglement with split detection-based spatial entanglement.",

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AB - A light beam is said to be position squeezed if its position can be determined to an accuracy beyond the standard quantum limit. We identify the position and momentum observables for bright optical beams and show that position and momentum entanglement can be generated by interfering two position, or momentum, squeezed beams on a beam splitter. The position and momentum measurements of these beams can be performed using a homodyne detector with local oscillator of an appropriate transverse beam profile. We compare this form of spatial entanglement with split detection-based spatial entanglement.

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Continuous-variable spatial entanglement for bright optical beams

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