Complete characterization of quantum-optical processes

Mirko Lobino; Dmitry Korystov; Connor Kupchak; Eden Figueroa; Barry C. Sanders; A. I. Lvovsky

doi:10.1126/science.1162086

Complete characterization of quantum-optical processes

Mirko Lobino
, Dmitry Korystov
, Connor Kupchak
, Eden Figueroa
, Barry C. Sanders
, A. I. Lvovsky

Physics and Astronomy

Stony Brook University

University of Calgary

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

137 Scopus citations

Abstract

The technologies of quantum information and quantum control are rapidly improving, but full exploitation of their capabilities requires complete characterization and assessment of processes that occur within quantum devices. We present a method for characterizing, with arbitrarily high accuracy, any quantum optical process. Our protocol recovers complete knowledge of the process by studying, via homodyne tomography, its effect on a set of coherent states, that is, classical fields produced by common laser sources. We demonstrate the capability of our protocol by evaluating and experimentally verifying the effect of a test process on squeezed vacuum.

Original language	English
Pages (from-to)	563-566
Number of pages	4
Journal	Science
Volume	322
Issue number	5901
DOIs	https://doi.org/10.1126/science.1162086
State	Published - Oct 24 2008

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AU - Kupchak, Connor

AU - Figueroa, Eden

AU - Sanders, Barry C.

AU - Lvovsky, A. I.

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AB - The technologies of quantum information and quantum control are rapidly improving, but full exploitation of their capabilities requires complete characterization and assessment of processes that occur within quantum devices. We present a method for characterizing, with arbitrarily high accuracy, any quantum optical process. Our protocol recovers complete knowledge of the process by studying, via homodyne tomography, its effect on a set of coherent states, that is, classical fields produced by common laser sources. We demonstrate the capability of our protocol by evaluating and experimentally verifying the effect of a test process on squeezed vacuum.

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Complete characterization of quantum-optical processes

Abstract

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