Polarisation Based Entanglement Distribution Quantum Networking
- Resource Type
- Conference
- Authors
- Clark, M.J.; Wang, R.; Bahrani, S.; Peranic, M.; Alia, O.; Loncaric, M.; Samec, Z.; Radman, A.; Stipcevic, M.; Nejabati, R.; Simeonidou, D.; Rarity, J.; Joshi, S.K.
- Source
- 2023 46th MIPRO ICT and Electronics Convention (MIPRO) ICT and Electronics Convention (MIPRO), 2023 46th MIPRO. :271-274 May, 2023
- Subject
- Bioengineering
Communication, Networking and Broadcast Technologies
Components, Circuits, Devices and Systems
Computing and Processing
Photonics and Electrooptics
Power, Energy and Industry Applications
Robotics and Control Systems
Signal Processing and Analysis
Electric potential
Quantum entanglement
C-band
Urban areas
Focusing
Frequency conversion
Quantum key distribution
quantum communication
quantum network
entanglement
entanglement distribution
- Language
- ISSN
- 2623-8764
Quantum networks based on entanglement distribution have shown promise for building scalable and fully connected systems that support quantum key distribution. This work aims to go beyond simply implementing quantum key distribution and explore the potential of such networks for implementing quantum photonic interconnects. Our research demonstrates the passive polarization stability of these networks for over a week and highlights the benefits of dynamic reconfiguration to remove redundant resources. We discuss recent advancements in quantum frequency conversion and quantum memory-based networks, and argue that the development of scalable, long-distance interconnects is crucial for advancing quantum technology. Our findings have important implications for the future of quantum networking and highlight the need for entanglement based photonic interconnect networks, such that quantum technology can scale beyond monolithic systems.