Related papers: Heralded hybrid CV-DV entanglement generation by quantum interference between CV state and DV delocalized photon

Heralded hybrid CV-DV entanglement generation by quantum interference between CV state and DV delocalized photon

URL: http://arxiv.org/abs/2101.02117v1
Date: Wed, 6 Jan 2021 16:17:37 GMT
Title: Heralded hybrid CV-DV entanglement generation by quantum interference between CV state and DV delocalized photon
Authors: Sergey A. Podoshvedov and Nguyen Ba An
Abstract summary: Hybrid entangled states prove to be necessary for quantum information processing within heterogeneous quantum networks. A family of CV states is introduced. Each of such CV states is first superimposed on a beam-splitter with a delocalized photon and then detected by a photo-detector behind the beam-splitter. Detection of any photon number heralds generation of a hybrid CV-DV entangled state in the outputs, independent of transmission/reflection coefficients of the beam-splitter and size of the input CV state.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Hybrid entangled states prove to be necessary for quantum information processing within heterogeneous quantum networks. A method with irreducible number of consumed resources that firmly provides hybrid CV-DV entanglement for any input conditions of the experimental setup is proposed. Namely, a family of CV states is introduced. Each of such CV states is first superimposed on a beam-splitter with a delocalized photon and then detected by a photo-detector behind the beam-splitter. Detection of any photon number heralds generation of a hybrid CV-DV entangled state in the outputs, independent of transmission/reflection coefficients of the beam-splitter and size of the input CV state. Nonclassical properties of the generated state are studied and their entanglement degree in terms of negativity is calculated. There are wide domains of values of input parameters of the experimental setup that can be chosen to make the generated state maximally entangled. The proposed method is also applicable to truncated versions of the input CV states. We also propose a simple method to produce even/odd CV states.

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