Quantum Two-Way Protocol Beyond Superdense Coding: Joint Transfer of Data and Entanglement

TL;DR

This paper introduces a two-way quantum communication protocol that extends superdense coding to jointly transfer data and entanglement, demonstrating improved data rates and resource efficiency in ideal and realistic conditions.

Contribution

It presents a novel two-way protocol combining entanglement management with superdense coding, extending beyond traditional one-way methods.

Findings

50% increase in data rate and resource efficiency in ideal conditions

Better performance than conventional protocols with decoherence not too short

Simulation results align with theoretical predictions

Abstract

In this article, we introduce a generalization of one-way superdense coding to two-way communication protocols for transmitting classical bits by using entangled quantum pairs. The proposed protocol jointly addresses the provision of entangled pairs and superdense coding, introducing an integrated approach for managing entanglement within the communication protocol. To assess the performance of the proposed protocol, we consider its data rate and resource usage, and we analyze this both in an ideal setting with no decoherence and in a more realistic setting where decoherence must be taken into account. In the ideal case, the proposal offers a 50% increase in both data rate and resource usage efficiency compared to conventional protocols. Even when decoherence is taken into consideration, the quantum protocol performs better as long as the decoherence time is not extremely short. Finally, we present the results of implementing the protocol in a computer simulation based on the NetSquid framework. We compare the simulation results with the theoretical values.