Oscillating photonic Bell state from a semiconductor quantum dot for quantum key distribution

Author:

Pennacchietti Matteo,Cunard Brady,Nahar ShlokORCID,Zeeshan Mohd,Gangopadhyay Sayan,Poole Philip J.ORCID,Dalacu Dan,Fognini Andreas,Jöns Klaus D.ORCID,Zwiller ValORCID,Jennewein Thomas,Lütkenhaus NorbertORCID,Reimer Michael E.ORCID

Abstract

AbstractAn on-demand source of bright entangled photon pairs is desirable for quantum key distribution (QKD) and quantum repeaters. The leading candidate to generate such pairs is based on spontaneous parametric down-conversion (SPDC) in non-linear crystals. However, its pair extraction efficiency is limited to 0.1% when operating at near-unity fidelity due to multiphoton emission at high brightness. Quantum dots in photonic nanostructures can in principle overcome this limit, but the devices with high entanglement fidelity (99%) have low pair extraction efficiency (0.01%). Here, we show a measured peak entanglement fidelity of 97.5% ± 0.8% and pair extraction efficiency of 0.65% from an InAsP quantum dot in an InP photonic nanowire waveguide. We show that the generated oscillating two-photon Bell state can establish a secure key for peer-to-peer QKD. Using our time-resolved QKD scheme alleviates the need to remove the quantum dot energy splitting of the intermediate exciton states in the biexciton-exciton cascade.

Funder

Canada First Research Excellence Fund

Mitacs

CMC Microsystems

Gouvernement du Canada | Natural Sciences and Engineering Research Council of Canada

Publisher

Springer Science and Business Media LLC

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