Polarization entanglement generation in silicon nitride waveguide-coupled dual microring resonators

Polarization-entangled photon pair sources exhibiting nonlocal quantum correlations are crucial to developments of quantum computing, quantum communications, quantum cryptography, and quantum sensing technologies. On-chip polarization entanglement generation thus constitutes one enabling component f...

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Veröffentlicht in:	Optics express 2024-06, Vol.32 (13), p.22804
Hauptverfasser:	Zhang, Qianni, Wu, Kaiyi, Poon, Andrew W
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creator	Zhang, Qianni Wu, Kaiyi Poon, Andrew W
description	Polarization-entangled photon pair sources exhibiting nonlocal quantum correlations are crucial to developments of quantum computing, quantum communications, quantum cryptography, and quantum sensing technologies. On-chip polarization entanglement generation thus constitutes one enabling component for integrated quantum photonic circuits. Here, we present to our knowledge the first polarization-entangled photon pair sources in a silicon nitride platform for integrated quantum photonic circuits. We demonstrate the generation of a polarization-entangled state by adopting a configuration comprising dual microring resonators, with nearly degenerate transverse electric and transverse magnetic polarized cavity resonances for the two resonators coupled in series to a common bus waveguide. We measure two-photon interference and quantum state tomography to characterize the polarization entanglement of the generated state and to reconstruct the density matrix. Our experiments reveal a visibility of 96.4% ± 3.1% and of 86.7% ± 3.2% with the \|H⟩ and \|V⟩ bases, respectively (and a visibility of 89.4% ± 6.6% and 81.3% ± 7.3% with the \|D⟩ and \|A⟩ bases), and a fidelity of ∼75.7% from the tomographic reconstructed density matrix.
doi_str_mv	10.1364/OE.518985
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title	Polarization entanglement generation in silicon nitride waveguide-coupled dual microring resonators
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