English

Multi-photon emission from a resonantly pumped quantum dot

Quantum Physics 2025-08-29 v1

Abstract

Resonance fluorescence of natural or artificial atoms constitutes a prime method for generating non-classical light. While most efforts have focused on producing single-photons, multi-photon emission is unavoidably present in the resonant driving of an atom. Here, we study the extent to which these processes occur: we quantify the multi-photon emission statistics in a resonantly-driven two-level artificial atom -- a semiconductor quantum dot in a micropillar cavity -- when pumped by short optical pulses. By measuring auto-correlation functions up to the fourth order, we observe up to four photons emitted after a single pumping pulse, and investigate the emission dynamics with finely resolved temporal measurements. Furthermore, we propose a method based on acquisition time gating to enhance the purity of a single-photon source while maintaining high efficiencies. Our results deepen the understanding of the photon emission processes in coherently driven atomic systems, and suggest a simple but effective technique to reduce the multi-photon components of a single-photon source.

Keywords

Cite

@article{arxiv.2507.04843,
  title  = {Multi-photon emission from a resonantly pumped quantum dot},
  author = {Francesco Giorgino and Patrik Zahálka and Lennart Jehle and Lorenzo Carosini and Lena Maria Hansen and Juan C. Loredo and Philip Walther},
  journal= {arXiv preprint arXiv:2507.04843},
  year   = {2025}
}
R2 v1 2026-07-01T03:49:11.571Z