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Analogy of free-space quantum key distribution using spatial modes of light: scaling up the distance and the dimensionality

Joseph Meyer, Yuval Reches, Georgi Gary Rozenman, Yaron Oz, Haim Suchowski, Ady Arie

2025Optics Letters11 citationsDOI

Abstract

While quantum key distribution (QKD) shows much potential as a solution to the looming threat that quantum computers place on today’s encryption protocols, efficient and robust systems that operate in free space are still limited. In this paper, we present a classical light analogy of QKD using spatial modes of light, which can provide a higher bit per photon rate than the more commonly used polarization state encoding.We start by demonstrating the BB84 protocol indoors, where we achieve a secure key rate of 1.55 bits per sifted photon. Then, using our outdoor environment, we propagate the signal outdoors over a distance of up to 90 m, modeling the real-world challenges of QKD in free-space applications and successfully demonstrating BB84 for dimensions 2 and 4.

Topics & Concepts

Quantum key distributionOpticsPhysicsQuantum imagingFree spaceSpace (punctuation)Quantum opticsSpatial distributionQuantumPhotonQuantum informationQuantum mechanicsComputer scienceQuantum networkMathematicsStatisticsOperating systemQuantum Information and CryptographyQuantum optics and atomic interactionsQuantum Mechanics and Applications