Experimental Property Reconstruction in a Photonic Quantum Extreme Learning Machine
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Zia, Danilo
Innocenti, Luca
Lorenzo, Salvatore
Cimini, Valeria
Giordani, Taira
Palmisano, Ivan
Polino, Emanuele
Spagnolo, Nicolò
Sciarrino, Fabio
Palma, G Massimo
Ferraro, Alessandro
Paternostro, Mauro
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Abstract
Recent developments have led to the possibility of embedding machine learning tools into experimental platforms to address key problems, including the characterization of the properties of quantum states. Leveraging on this, we implement a quantum extreme learning machine in a photonic platform to achieve resource-efficient and accurate characterization of the polarization state of a photon. The underlying reservoir dynamics through which such input state evolves is implemented using the coined quantum walk of high-dimensional photonic orbital angular momentum and performing projective measurements over a fixed basis. We demonstrate how the reconstruction of an unknown polarization state does not need a careful characterization of the measurement apparatus and is robust to experimental imperfections, thus representing a promising route for resource-economic state characterization.
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Physical Review Letters
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132
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16
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© 2024 the authors. This is an accepted manuscript distributed under a Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium, provided the author and source are cited.
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Quantum optics and quantum optomechanics
Engineering
Mathematical sciences
Physical sciences
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Citation
Suprano, A; Zia, D; Innocenti, L; Lorenzo, S; Cimini, V; Giordani, T; Palmisano, I; Polino, E; Spagnolo, N; Sciarrino, F; Palma, GM; Ferraro, A; Paternostro, M, Experimental Property Reconstruction in a Photonic Quantum Extreme Learning Machine, Physical Review Letters, 132 (16), pp. 160802