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Tech & AI 7.3 🇸🇪

Quantum entanglement alone won't boost secure communication, study finds

Researchers discovered that shared entanglement between parties doesn't automatically improve energy-constrained quantum communication unless combined with specific encoding techniques. The finding reshapes expectations for quantum networks and could accelerate deployment of practical quantum security systems that don't require expensive entanglement infrastructure.

Originaltitel: The role of entanglement in energy-restricted communication and randomness generation

Abstrakt

Abstract A promising platform for semi-device-independent quantum information is prepare-and-measure experiments restricted only by a bound on the energy of the communication. Here, we investigate the role of shared entanglement in such scenarios. For classical communication, we derive a general correlation criterion for nonlocal resources and use it to show that entanglement can fail to be a resource in standard tasks. For quantum communication, we consider the basic primitive for energy-constrained communication, namely the probabilistic transmission of a bit, and show that the advantages of entanglement only can be unlocked by non-unitary encoding schemes that purposefully decohere the entangled state. We also find that these advantages can be increased by using entanglement of higher dimension than qubit. We leverage these insights to investigate the impact of entanglement for quantum random number generation, which is a standard application of these systems but whose security so far only has been established against classical side information. In the low-energy regime, our attacks on the protocol indicate that the security remains largely intact, thereby paving the way for strengthened security without more complex setups and with negligible performance reductions.

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