Spatial pair correlations of atoms in molecular dissociation

C. M. Savage; K. V. Kheruntsyan

doi:10.1103/PhysRevLett.99.220404

Spatial pair correlations of atoms in molecular dissociation

C. M. Savage^*, K. V. Kheruntsyan

^*Corresponding author for this work

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

27 Citations (Scopus)

Abstract

We perform first-principles quantum simulations of dissociation of trapped, spatially inhomogeneous Bose-Einstein condensates of molecular dimers. Specifically, we study spatial pair correlations of atoms produced in dissociation after time of flight. We find that the observable correlations may significantly degrade in systems with spatial inhomogeneity compared to the predictions of idealized uniform models. We show how binning of the signal can enhance the detectable correlations and lead to the violation of the classical Cauchy-Schwartz inequality and relative number squeezing.

Original language	English
Article number	220404
Journal	Physical Review Letters
Volume	99
Issue number	22
DOIs	https://doi.org/10.1103/PhysRevLett.99.220404
Publication status	Published - 27 Nov 2007

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10.1103/PhysRevLett.99.220404

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title = "Spatial pair correlations of atoms in molecular dissociation",

abstract = "We perform first-principles quantum simulations of dissociation of trapped, spatially inhomogeneous Bose-Einstein condensates of molecular dimers. Specifically, we study spatial pair correlations of atoms produced in dissociation after time of flight. We find that the observable correlations may significantly degrade in systems with spatial inhomogeneity compared to the predictions of idealized uniform models. We show how binning of the signal can enhance the detectable correlations and lead to the violation of the classical Cauchy-Schwartz inequality and relative number squeezing.",

author = "Savage, {C. M.} and Kheruntsyan, {K. V.}",

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AB - We perform first-principles quantum simulations of dissociation of trapped, spatially inhomogeneous Bose-Einstein condensates of molecular dimers. Specifically, we study spatial pair correlations of atoms produced in dissociation after time of flight. We find that the observable correlations may significantly degrade in systems with spatial inhomogeneity compared to the predictions of idealized uniform models. We show how binning of the signal can enhance the detectable correlations and lead to the violation of the classical Cauchy-Schwartz inequality and relative number squeezing.

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Spatial pair correlations of atoms in molecular dissociation

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