Quantum enhancement to information acquisition speed

TL;DR

This paper demonstrates a quantum advantage in the global speed of information acquisition and transmission, showing a quadratic enhancement over classical methods when information is spatially dispersed.

Contribution

It introduces a quantum protocol that achieves a quadratic speedup in information acquisition speed for globally encoded information, surpassing classical limits.

Findings

Quantum protocol achieves quadratic speedup in information acquisition.

Quantum advantage applies to information with limited power sources.

Demonstrates fundamental difference between classical and quantum information transmission.

Abstract

The speed of the transmission of a physical signal from a sender to a receiver is limited by the speed of light, regardless of the physical system being classical or quantum. In this sense, quantum mechanics can not provide any enhancement of the speed of information. If instead we consider that the information needing to be transmitted is not localized at the sender's location, but dispersed throughout space, spatial coherence might provide an enhancement of the information speed. In this work, we demonstrate a quantum mechanical advantage in the speed of acquirement and transmission of information globally encoded in space. We present a task for which we prove a quadratic enhancement to the information speed of quantum information carriers with respect to their classical counterpart. Our findings can naturally be applied in situations where the information source has limited power, i.e. bounded number of signals that can be sent per unit time.