2013
DOI: 10.1103/physreva.88.051802
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Asymmetric Gaussian harmonic steering in second-harmonic generation

Abstract: Intracavity second-harmonic generation is one of the simplest of the quantum optical processes and is well within the expertise of most optical laboratories. It is well understood and characterized, both theoretically and experimentally. We show that it can be a source of continuous-variable asymmetric Gaussian harmonic steering with fields which have a coherent excitation, hence combining the important effects of harmonic entanglement and asymmetric steering in one easily controllable device, adjustable by th… Show more

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Cited by 63 publications
(48 citation statements)
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“…This raised the possibility that the considered state could be asymmetric, with the two observers not agreeing on whether the bipartite system exhibited EPR-steering or not. This asymmetric steering has been predicted in optical [40][41][42] and atomic systems [43], and measured in the laboratory [44], all using Gaussian measurements. It is now established that it is a general property, and may exist for any possible measurements [45].…”
Section: Physical Model Hamiltonian and Equations Of Motionmentioning
confidence: 56%
“…This raised the possibility that the considered state could be asymmetric, with the two observers not agreeing on whether the bipartite system exhibited EPR-steering or not. This asymmetric steering has been predicted in optical [40][41][42] and atomic systems [43], and measured in the laboratory [44], all using Gaussian measurements. It is now established that it is a general property, and may exist for any possible measurements [45].…”
Section: Physical Model Hamiltonian and Equations Of Motionmentioning
confidence: 56%
“…When one of the pair (EP R ij , EP R ji ) is less than one and the other is more than one, we have a phenomenon known as asymmetric Gaussian steering. This property has been predicted in optical [40,41,42] and atomic systems [43], and measured in the laboratory [44]. It is now established that it is a general property, and may also exist for non-Gaussian measurements [45].…”
Section: Quantities Of Interestmentioning
confidence: 73%
“…The opposite has happened with modes 1 and 3, with their steering now being symmetric. The symmetry properties of the EPR steering can be controlled by adjusting the cavity loss rates, as was also found with intracavity second harmonic generation [36].…”
Section: S(ŷ J )mentioning
confidence: 90%