Single-photon entanglement is a peculiar type of entanglement in which two or more degrees of freedom of a single photon are correlated quantum-mechanically. Here, we demonstrate a photonic integrated chip (PIC) able to generate and manipulate single-photonpath-entangled states, using a commercial red LED as light source. A Bell test, in the Clauser, Horne, Shimony and Holt (CHSH) form, is performed to confirm the presence of entanglement, resulting in a maximum value of the CHSH correlation parameter equal to 2.605 ± 0.004. This allows us to use it as an integrated semi-device independent quantum random number generator able to produce certified random numbers. The certification scheme is based on a Bell’s inequality violation and on a partial characterization of the experimental setup, without the need of introducing any further assumptions either on the input state or on the particular form of the measurement observables. In the end a min-entropy of 33% is demonstrated.
Generation of quantum-certified random numbers using on-chip path-entangled single photons from an LED / Leone, Nicolò; Azzini, Stefano; Mazzucchi, Sonia; Moretti, Valter; Sanna, Matteo; Borghi, Massimo; Piccoli, Gioele; Bernard, Martino; Ghulinyan, Mher; Pavesi, Lorenzo. - In: PHOTONICS RESEARCH. - ISSN 2327-9125. - 2023 vol. 11:2(2023), pp. 1484-1499. [10.1364/PRJ.488875]
Generation of quantum-certified random numbers using on-chip path-entangled single photons from an LED
Nicolò Leone
;Stefano Azzini;Sonia Mazzucchi;Valter Moretti;Matteo Sanna;Massimo Borghi;Gioele Piccoli;Martino Bernard;Mher Ghulinyan;Lorenzo Pavesi
2023-01-01
Abstract
Single-photon entanglement is a peculiar type of entanglement in which two or more degrees of freedom of a single photon are correlated quantum-mechanically. Here, we demonstrate a photonic integrated chip (PIC) able to generate and manipulate single-photonpath-entangled states, using a commercial red LED as light source. A Bell test, in the Clauser, Horne, Shimony and Holt (CHSH) form, is performed to confirm the presence of entanglement, resulting in a maximum value of the CHSH correlation parameter equal to 2.605 ± 0.004. This allows us to use it as an integrated semi-device independent quantum random number generator able to produce certified random numbers. The certification scheme is based on a Bell’s inequality violation and on a partial characterization of the experimental setup, without the need of introducing any further assumptions either on the input state or on the particular form of the measurement observables. In the end a min-entropy of 33% is demonstrated.| File | Dimensione | Formato | |
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