English

Space-compatible cavity-enhanced single-photon generation with hexagonal boron nitride

Quantum Physics 2019-08-22 v1 Materials Science Optics

Abstract

Sources of pure and indistinguishable single-photons are critical for near-future optical quantum technologies. Recently, color centers hosted by two-dimensional hexagonal boron nitride (hBN) have emerged as a promising platform for high luminosity room temperature single-photon sources. Despite the brightness of the emitters, the spectrum is rather broad and the single-photon purity is not sufficient for practical quantum information processing. Here, we report integration of such a quantum emitter hosted by hBN into a tunable optical microcavity. A small mode volume of the order of λ3\lambda^3 allows us to Purcell enhance the fluorescence, with the observed excited state lifetime shortening. The cavity significantly narrows the spectrum and improves the single-photon purity by suppression of off-resonant noise. We explore practical applications by evaluating the performance of our single-photon source for quantum key distribution and quantum computing. The complete device is compact and implemented on a picoclass satellite platform, enabling future low-cost satellite-based long-distance quantum networks.

Keywords

Cite

@article{arxiv.1902.03019,
  title  = {Space-compatible cavity-enhanced single-photon generation with hexagonal boron nitride},
  author = {Tobias Vogl and Ruvi Lecamwasam and Ben C. Buchler and Yuerui Lu and Ping Koy Lam},
  journal= {arXiv preprint arXiv:1902.03019},
  year   = {2019}
}
R2 v1 2026-06-23T07:35:31.674Z