Secure Quantum Key Distribution Using a Room-Temperature Quantum Emitter

• URL: http://arxiv.org/abs/2501.13902v2
• Date: Thu, 24 Apr 2025 17:56:58 GMT
• Title: Secure Quantum Key Distribution Using a Room-Temperature Quantum Emitter
• Authors: Ömer S. Tapşın, Furkan Ağlarcı, Roberto G. Pousa, Daniel K. L. Oi, Mustafa Gündoğan, Serkan Ateş,
• Abstract summary: We show the versatility of defects in hexagonal boron nitride (hBN) at room temperature by implementing the B92 protocol.<n>Experiments yield a sifted key rate (SiKR) of 17.5 kbps with a QBER of 6.49% at a dynamic polarization encoding rate of 40 MHz.<n>We also explore potential applications of hBN defects beyond QKD and analyze scenarios that could outperform conventional point-to-point QKD schemes.
• Score: 0.0
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: On-demand generation of single photons from solid-state quantum emitters is essential to build practical quantum networks and QKD systems by potentially enabling higher secure key rates (SKR) and lower quantum bit error rates (QBER) in short-range distances. Room-temperature operation is particularly important as it eliminates the need for bulky cryogenic setups, reducing complexity and cost for real-world applications. In this work, we showcase the versatility of defects in hexagonal boron nitride (hBN) at room temperature by implementing the B92 protocol. Our experiments yield a sifted key rate (SiKR) of 17.5 kbps with a QBER of 6.49% at a dynamic polarization encoding rate of 40 MHz, and finite-key analysis provides a SKR of 7 kbps, one of the highest achieved for a room-temperature single photon source. We analyzed the non-decoy efficient BB84 using our hBN emitter and other promising quantum dot source for QKD, and compare their key performance with a single quantum repeater scenario. We also explore potential applications of hBN defects beyond QKD and analyze scenarios that could outperform conventional point-to-point QKD schemes. These results underscore the promise of hBN emitters for advancing quantum communication technologies.

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