QuNET+ICLink – Towards a Future Quantum Internet

Secrecy in data transfer, both in critical infrastructure and in private life, remains a central and 
fundamental challenge in our society. In recent decades, this has motivated research in the field of 
quantum cryptography worldwide, which enables information-theoretical security based on the laws 
of quantum physics. Against this background, the research work of the joint project QuNET+ICLink will be presented, the aim of which is to develop a highly efficient deterministic single-photon source and to validate it for quantum-secured data transmission in conventional telecommunications networks. The deterministic single-photon source is to operate at C-band wavelengths and be used in a fiber-optic inter-city connection. To generate single photons of the highest quality, special semiconductor lasers based on novel quantum structures are being developed as light source for pumping quantum emitters. The single-photon sources themselves are realized based on semiconductor quantum dots embedded in nanophotonic micro-resonators and used, initially on a laboratory scale, for quantum key distribution (QKD). This will be followed by integration into a mobile server-rack compatible QKD demonstrator, which will be used for quantum communication in a 75 km long inter-city fiber optic test track between Jena and Erfurt. In addition, the single-photon source will be evaluated for future use in more complex quantum cryptographic protocols. This applies to both the measurement-device-independent (MDI) QKD and protocols beyond QKD in distrustful settings.

Presentation language: ENG