Two-photon interference between mutually-detuned resonance fluorescence signals scattered off a semiconductor quantum dot (2501.16939v2)

Abstract: Radiative linewidth of a two-level emitter (TLE) ultimately determines the bandwidth it can offer for quantum information processing. However, no prior experiment has so far been performed to examine the effect of driving detuning on indistinguishability of photons scattered off a TLE, a parameter that is crucial for photonic quantum computing. Here, we perform post-selective two-photon interference experiments between mutually-detuned resonance fluorescence signals from an InAs quantum dot embedded in a micropillar cavity. Our results suggest that indistinguishability among photons scattered off a quantum dot is inherently insensitive to the driving laser's detuning, as straightforwardly predicted by the resonance fluorescence model that systematically treats all scattered photons as spontaneous emission.