Hong–Ou–Mandel effect with two frequency-entangled photons of vastly different color

F. Mann¹, H.M. Chrzanowski¹, M. Placke¹, F. Gewers¹, and S. Ramelow^1,2

Published in:

Optica Quantum, vol. 3, no. 6, pp. 495-499, doi:10.1364/OPTICAQ.573021 (2025).

Abstract:

In the original formulation of the Hong–Ou–Mandel (HOM) experiment, when two otherwise indistinguishable photons are incident upon the two input ports of a balanced beam splitter, they coalesce, always leaving via the same output port. It is often interpreted that this interference arises due to the indistinguishability of the single photons at the beam splitter; the situation, however, is often more nuanced. Here, we demonstrate an analog of HOM interference between two photons of completely different color. To do so, we utilize a quantum frequency converter based on sum- and difference-frequency generation as an “active” beam splitter—coupling frequency-entangled red and telecom single photons with an octave-spanning energy difference of 282 THz. We achieve an uncorrected two-photon interference visibility beyond 90%. This work presents the first demonstration of HOM interference between two single photons of distinctly different color, deepening our understanding of what underlies quantum interference. It also suggests a novel approach to interfacing photonic qubits in heterogeneous quantum systems where frequency conversion and quantum interference are unified.

Topics:

Beam splitters; Destructive interference; Doppler effect; Quantum light sources; Superconducting nanowire single photon detectors; Tunable diode lasers

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