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Cavity-enhanced photon indistinguishability at room temperature and telecom wavelengths

Lukas Husel, Julian Trapp, Johannes Scherzer, Xiaojian Wu, Peng Wang, Jacob Fortner, Manuel Nutz, Thomas Hümmer, Borislav Polovnikov, Michael Förg, David Hunger, YuHuang Wang, Alexander Högele

2024Nature Communications15 citationsDOIOpen Access PDF

Abstract

Indistinguishable single photons in the telecom-bandwidth of optical fibers are indispensable for long-distance quantum communication. Solid-state single photon emitters have achieved excellent performance in key benchmarks, however, the demonstration of indistinguishability at room-temperature remains a major challenge. Here, we report room-temperature photon indistinguishability at telecom wavelengths from individual nanotube defects in a fiber-based microcavity operated in the regime of incoherent good cavity-coupling. The efficiency of the coupled system outperforms spectral or temporal filtering, and the photon indistinguishability is increased by more than two orders of magnitude compared to the free-space limit. Our results highlight a promising strategy to attain optimized non-classical light sources.

Topics & Concepts

PhotonWavelengthBandwidth (computing)PhysicsOptoelectronicsOptical fiberQuantum opticsCoupling (piping)QuantumTelecommunicationsOpticsComputer scienceMaterials scienceQuantum mechanicsMetallurgyPhotonic and Optical DevicesQuantum Information and CryptographyMechanical and Optical Resonators
Cavity-enhanced photon indistinguishability at room temperature and telecom wavelengths | Litcius