Experimental tomography of NOON states with large photon numbers

Y. Israel; I. Afek; S. Rosen; O. Ambar; Y. Silberberg

doi:10.1103/PhysRevA.85.022115

Experimental tomography of NOON states with large photon numbers

Y. Israel, I. Afek, S. Rosen, O. Ambar, Y. Silberberg

Department of Physics of Complex Systems

Weizmann Institute of Science

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

Abstract

We have performed experimental quantum state tomography of NOON states with up to four photons. The measured states are generated by mixing photons from a classical coherent state with down-converted photon pairs. We show that the fidelity between the produced states and the ideal NOON states is high. The fidelity is limited by the overlap of the two-photon down-converted state with any two photons originating from the coherent state, for which we introduce and measure a figure of merit. A second limitation on the fidelity set by the total setup transmission is discussed. We also apply the same tomography procedure for characterizing correlated photon hole states.

Original language	English
Article number	022115
Number of pages	5
Journal	Physical Review A - Atomic, Molecular, and Optical Physics
Volume	85
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevA.85.022115
State	Published - 10 Feb 2012

All Science Journal Classification (ASJC) codes

Atomic and Molecular Physics, and Optics

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title = "Experimental tomography of NOON states with large photon numbers",

abstract = "We have performed experimental quantum state tomography of NOON states with up to four photons. The measured states are generated by mixing photons from a classical coherent state with down-converted photon pairs. We show that the fidelity between the produced states and the ideal NOON states is high. The fidelity is limited by the overlap of the two-photon down-converted state with any two photons originating from the coherent state, for which we introduce and measure a figure of merit. A second limitation on the fidelity set by the total setup transmission is discussed. We also apply the same tomography procedure for characterizing correlated photon hole states.",

author = "Y. Israel and I. Afek and S. Rosen and O. Ambar and Y. Silberberg",

note = "Ilan Ramon Grant; ERC; Minerva Foundation; Crown Photonics CenterI.A. gratefully acknowledges the support of the Ilan Ramon Grant. Financial support of this research by the ERC grant QUAMI, the Minerva Foundation, and the Crown Photonics Center is gratefully acknowledged.",

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doi = "10.1103/PhysRevA.85.022115",

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AU - Israel, Y.

AU - Afek, I.

AU - Rosen, S.

AU - Ambar, O.

AU - Silberberg, Y.

N1 - Ilan Ramon Grant; ERC; Minerva Foundation; Crown Photonics CenterI.A. gratefully acknowledges the support of the Ilan Ramon Grant. Financial support of this research by the ERC grant QUAMI, the Minerva Foundation, and the Crown Photonics Center is gratefully acknowledged.

PY - 2012/2/10

Y1 - 2012/2/10

N2 - We have performed experimental quantum state tomography of NOON states with up to four photons. The measured states are generated by mixing photons from a classical coherent state with down-converted photon pairs. We show that the fidelity between the produced states and the ideal NOON states is high. The fidelity is limited by the overlap of the two-photon down-converted state with any two photons originating from the coherent state, for which we introduce and measure a figure of merit. A second limitation on the fidelity set by the total setup transmission is discussed. We also apply the same tomography procedure for characterizing correlated photon hole states.

AB - We have performed experimental quantum state tomography of NOON states with up to four photons. The measured states are generated by mixing photons from a classical coherent state with down-converted photon pairs. We show that the fidelity between the produced states and the ideal NOON states is high. The fidelity is limited by the overlap of the two-photon down-converted state with any two photons originating from the coherent state, for which we introduce and measure a figure of merit. A second limitation on the fidelity set by the total setup transmission is discussed. We also apply the same tomography procedure for characterizing correlated photon hole states.

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DO - 10.1103/PhysRevA.85.022115

M3 - مقالة

SN - 1050-2947

VL - 85

JO - Physical Review A - Atomic, Molecular, and Optical Physics

JF - Physical Review A - Atomic, Molecular, and Optical Physics

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M1 - 022115

ER -

Experimental tomography of NOON states with large photon numbers

Abstract

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