With the stability of integrated photonics at network nodes and the advantages of photons as flying qubits, photonic quantum information processing (PQIP) makes quantum networks increasingly scalable. However, scaling up PQIP requires the preparation of many identical single photons which is limited by the spectral distinguishability of integrated single-photon sources due to variations in fabrication or local environment. To address this, we introduce frequency auto-homogenization via group-velocity-matched downconversion to remove spectral distinguishability in varying quantum emitters. We present our theory using χ(2) quantum frequency conversion and show proof-of-principle data in a free-space optical setup.
@article{arxiv.2502.02466,
title = {Frequency auto-homogenization using group-velocity-matched downconversion},
author = {Dylan Heberle and Christopher C. Tison and James Schneeloch and A. Matthew Smith and Paul M. Alsing and Jeffrey Moses and Michael L. Fanto},
journal= {arXiv preprint arXiv:2502.02466},
year = {2025}
}