Quantum random number generation (QRNG) harnesses the intrinsic randomness of quantum mechanical phenomena. Demonstrations of such processes have, however, been limited to probabilistic sources, for instance, spontaneous parametric down-conversion or faint lasers, which cannot be triggered deterministically. Here, we demonstrate QRNG with a quantum emitter in hexagonal boron nitride; an emerging solid-state quantum source that can generate single photons on demand and operates at room temperature. We achieve true random number generation through the measurement of single photons exiting one of four integrated photonic waveguides, and subsequently, verify the randomness of the sequences in accordance with the National Institute of Standards and Technology benchmark suite. Our results open a new avenue to the fabrication of on-chip deterministic random number generators and other solid-state-based quantum-optical devices.
@article{arxiv.2001.10625,
title = {Quantum Random Number Generation using a Solid-State Single-Photon Source},
author = {Simon J. U. White and Friederike Klauck and Toan Trong Tran and Nora Schmitt and Mehran Kianinia and Andrea Steinfurth and Matthias Heinrich and Milos Toth and Alexander Szameit and Igor Aharonovich and Alexander Solntsev},
journal= {arXiv preprint arXiv:2001.10625},
year = {2021}
}