Sequential Entanglement-Swapping assisted by Quantum Protocol over Ethernet Networks

TL;DR

This paper proposes a practical framework for integrating quantum communication protocols over Ethernet networks, enabling reliable quantum entanglement and scalable quantum internet development with performance within decoherence limits.

Contribution

It introduces novel protocols for end-to-end quantum entanglement over Ethernet, combining classical network features with quantum communication needs.

Findings

Protocols enable reliable quantum entanglement over Ethernet

Time-delay analysis shows performance within decoherence thresholds

Framework supports scalable and stable quantum networking

Abstract

The integration of quantum communication protocols over Ethernet networks is proposed, showing the potential of combining classical and quantum technologies for efficient, scalable quantum networking. By leveraging the inherent strengths of Ethernet, such as addressing, MAC layer functionality, and scalability; we propose a practical framework to support the rigorous requirements of quantum communication. Some novel protocols given in this study enable reliable end-to-end quantum entanglement over Ethernet, ensuring the adaptability needed for implementing a stable quantum internet. Detailed time-delay analyses confirm that our protocols offer superior performance compared to existing methods, with total time delay kept within the decoherence threshold of qubits. These results suggest that our approach is well-suited for deployment in realistic environments, meeting both the immediate needs of quantum networking and laying the groundwork for future advances in data exchange and quantum computational capabilities.