Nicola Biagi scite author profile

We present the experimental generation of tunable entanglement between distinct field modes by the delocalized addition of a single photon. We show that one can preserve a high degree of entanglement even between macroscopically populated modes and illustrate this concept by adding a single photon to two modes containing identical coherent states of growing amplitude. Discorrelation, a new joint statistical property of multimode quantum states, is also experimentally demonstrated here for the first time.

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Field trial of a three-state quantum key distribution scheme in the Florence metropolitan area

Bacco

Vagniluca

Lio

et al. 2019

EPJ Quantum Technol.

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In-field demonstrations in real-world scenarios boost the development of a rising technology towards its integration in existing infrastructures. Although quantum key distribution (QKD) devices are already adopted outside the laboratories, current field implementations still suffer from high costs and low performances, preventing this emerging technology from a large-scale deployment in telecommunication networks. Here we present a simple, practical and efficient QKD scheme with finite-key analysis, performed over a 21 dB-losses fiber link installed in the metropolitan area of Florence (Italy). Coexistence of quantum and weak classical communication is also demonstrated by transmitting an optical synchronization signal through the same fiber link.

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Stable Transmission of High-Dimensional Quantum States Over a 2-km Multicore Fiber

Lio

Oxenløwe

Bacco

et al. 2020

IEEE J. Select. Topics Quantum Electron.

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High-dimensional quantum states have already settled their advantages in different quantum technology applications. However, their reliable transmission in fiber links remains an open challenge that must be addressed to boost their application, e.g. in the future quantum internet. Here, we prove how path encoded high-dimensional quantum states can be reliably transmitted over a 2 km long multicore fiber, taking advantage of a phase-locked loop system guaranteeing a stable interferometric detection.Index Terms-Quantum communication, quantum key distribution, high-dimensional path encoding, multicore fiber

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Measurement-Induced Strong Kerr Nonlinearity for Weak Quantum States of Light

et al. 2017

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Strong nonlinearity at the single photon level represents a crucial enabling tool for optical quantum technologies. Here we report on experimental implementation of a strong Kerr nonlinearity by measurement-induced quantum operations on weak quantum states of light. Our scheme coherently combines two sequences of single photon addition and subtraction to induce a nonlinear phase shift at the single photon level. We probe the induced nonlinearity with weak coherent states and characterize the output non-Gaussian states with quantum state tomography. The strong nonlinearity is clearly witnessed as a change of sign of specific off-diagonal density matrix elements in the Fock basis.

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Nicola Biagi

Entangling Macroscopic Light States by Delocalized Photon Addition

Field trial of a three-state quantum key distribution scheme in the Florence metropolitan area

Stable Transmission of High-Dimensional Quantum States Over a 2-km Multicore Fiber

Measurement-Induced Strong Kerr Nonlinearity for Weak Quantum States of Light

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