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The protocol of quantum reading refers to the quantum enhanced retrieval of information from an optical memory, whose generic cell stores a bit of information in two possible lossy channels. In the following we analyze the case of a particular class of optical receiver, based on photon counting measurement, since they can be particularly simple in view of real applications. We show that a quantum advantage is achievable when a transmitter based on two-mode squeezed vacuum (TMSV) states is combined with a photon counting receiver, and we experimentally confirm it. In this paper, after introducing some theoretical background, we focus on the experimental realisation, describing the data collection and the data analysis in detail.

New experimental methods with two modes squeezed light: from quantum reading to quantum conformance test / Losero, Elena; Ortolano, Giuseppe; Saccomandi, Fabio; Ruo-Berchera, Ivano; Pirandola, Stefano; Genovese, Marco. - 11700:1(2021), p. 65. (Intervento presentato al convegno Optical and Quantum Sensing and Precision Metrology) [10.1117/12.2586579].

New experimental methods with two modes squeezed light: from quantum reading to quantum conformance test

Losero, Elena;Ortolano, Giuseppe;Saccomandi, Fabio;Ruo-Berchera, Ivano;Genovese, Marco
2021

Abstract

The protocol of quantum reading refers to the quantum enhanced retrieval of information from an optical memory, whose generic cell stores a bit of information in two possible lossy channels. In the following we analyze the case of a particular class of optical receiver, based on photon counting measurement, since they can be particularly simple in view of real applications. We show that a quantum advantage is achievable when a transmitter based on two-mode squeezed vacuum (TMSV) states is combined with a photon counting receiver, and we experimentally confirm it. In this paper, after introducing some theoretical background, we focus on the experimental realisation, describing the data collection and the data analysis in detail.
2021
Optical and Quantum Sensing and Precision Metrology
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11696/74196
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