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Wavevector-resolved polarization entanglement from radiative cascades

Quantum Physics 2024-09-13 v1 Materials Science

Abstract

The generation of entangled photons from radiative cascades has enabled milestone experiments in quantum information science with several applications in photonic quantum technologies. Significant efforts are being devoted to pushing the performances of near-deterministic entangled-photon sources based on single quantum emitters often embedded in photonic cavities, so to boost the flux of photon pairs. The general postulate is that the emitter generates photons in a nearly maximally entangled state of polarization, ready for application purposes. Here, we demonstrate that this assumption is unjustified. We show that in radiative cascades there exists an interplay between photon polarization and emission wavevector, strongly affecting quantum correlations when emitters are embedded in micro-cavities. We discuss how the polarization entanglement of photon pairs from a biexciton-exciton cascade in quantum dots strongly depends on their propagation wavevector, and it can even vanish for large emission angles. Our experimental results, backed by theoretical modelling, yield a brand-new understanding of cascaded emission for various quantum emitters. In addition, our model provides quantitative guidelines for designing optical microcavities that retain both a high degree of entanglement and collection efficiency, moving the community one step further towards an ideal source of entangled photons for quantum technologies.

Keywords

Cite

@article{arxiv.2409.07875,
  title  = {Wavevector-resolved polarization entanglement from radiative cascades},
  author = {Alessandro Laneve and Michele B. Rota and Francesco Basso Basset and Mattia Beccaceci and Valerio Villari and Thomas Oberleitner and Yorick Reum and Tobias M. Krieger and Quirin Buchinger and Saimon F. Covre da Silva and Andreas Pfenning and Sandra Stroj and Sven Höfling and Armando Rastelli and Tobias Huber-Loyola and Rinaldo Trotta},
  journal= {arXiv preprint arXiv:2409.07875},
  year   = {2024}
}
R2 v1 2026-06-28T18:42:14.758Z