Tomographic Recovering of Radiation State's Wigner Distribution: a Novel Tool for Characterizing Optical Devices

G. Mauro D’Ariano; Matteo G.A. Paris; Martina De Laurentis; Alberto Porzio; Salvatore Solimene

Quantum Electronics and Laser Science Conference
OSA Technical Digest (Optica Publishing Group, 2002),
paper QME5

Tomographic Recovering of Radiation State's Wigner Distribution: a Novel Tool for Characterizing Optical Devices

G. Mauro D’Ariano, Matteo G.A. Paris, Martina De Laurentis, Alberto Porzio, and Salvatore Solimene

Quantum Electronics and Laser Science Conference 2002

Long Beach, California United States
19–22 May 2002
ISBN: 1-55752-708-3

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Quantum Optics 1 (QME)

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G. M. D’Ariano, M. G. A. Paris, M. De Laurentis, A. Porzio, and S. Solimene, "Tomographic Recovering of Radiation State's Wigner Distribution: a Novel Tool for Characterizing Optical Devices," in Quantum Electronics and Laser Science Conference, H. Gibbs, D. Wineland, D. Gammon, and D. Heinzen, eds., OSA Technical Digest (Optica Publishing Group, 2002), paper QME5.

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Abstract

Quantum homodync tomography (QHT) is the most successful technique for measuring the quantum state of light. It is based on numerical manipulation of balanced homodyne data. So far QHT is the only method successfully employed in a number of experiments^1-6 to reconstruct the quantum state.

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