Quantum entanglement represents an ideal resource to guarantee the security of random numbers employed in many scientific and cryptographic applications. However, entanglement-based certified random number generators are particularly challenging to implement. Here, we demonstrate a new certified quantum random number generator based on momentum-polarization entangled single photon states. The use of single photon entanglement allows employing an attenuated laser source and a simple setup where only linear optical components are utilized. For the latter, a semi-device-independent modeling of the photonic quantum random number generator is developed, which certifies a minimum entropy of (2.5±0.5)%, corresponding to a generation rate of 4.4 kHz. At the expenses of a higher level of trust in the system, the certified minimum entropy can be increased to (30.1±0.5)%, implying a generation rate of 52.7 kHz. Our results show that a simple optical implementation combined with an accurate modeling provide an entanglement-based high-security quantum random number generator using imperfect devices.
@article{arxiv.2104.04452,
title = {Certified quantum random number generator based on single-photon entanglement},
author = {Nicolò Leone and Stefano Azzini and Sonia Mazzucchi and Valter Moretti and Lorenzo Pavesi},
journal= {arXiv preprint arXiv:2104.04452},
year = {2022}
}