University of Ottawa Team Pioneers New Approach to Secure Free-Space Quantum Key Distribution

Researchers at the University of Ottawa have pioneered a novel approach to secure free-space quantum key distribution (QKD), addressing a critical challenge in transmitting quantum information through the atmosphere.

The team has successfully mitigated the effects of atmospheric turbulence—a major source of signal distortion and errors—by employing a nonlinear optical process known as stimulated parametric down-conversion (StimPDC). This innovative technique dynamically corrects spatial-mode distortions without needing prior knowledge of the turbulent channel, potentially leading to simpler and more affordable quantum communication systems. “We found the idea of using a fundamental optical process to correct the effects of turbulence in real time to be both innovative and largely unexplored,” said Aarón Cardoso, lead author and Quantum Optics Student Researcher at uOttawa. “Our results show we can reduce quantum error rates below the security threshold even under strong turbulence,” suggesting a significant step toward bolstering long-term digital security. A groundbreaking approach to free-space quantum key distribution (QKD) is mitigating atmospheric turbulence using stimulated parametric down-conversion (StimPDC), offering a potential pathway to more secure and cost-effective quantum communication.

The team’s work, conducted at uOttawa’s Advanced Research Complex (ARC), leverages the phase-conjugation property inherent in StimPDC to counteract the blurring effects of turbulence on quantum signals. This innovative technique represents a departure from complex and expensive adaptive optics systems, promising simpler implementations for long-distance QKD.

This research, published in Optica as “All-optical turbulence mitigation for free-space quantum key distribution using stimulated parametric down-conversion,” was facilitated by collaboration between the Max Planck–uOttawa Centre for Extreme and Quantum Photonics and the Nexus for Quantum Technologies institute (NexQT). The findings suggest a future where long-term digital security is bolstered by more accessible and robust quantum communication networks, built on the principles of all-optical turbulence mitigation. Our results show we can reduce quantum error rates below the security threshold even under strong turbulence.Aarón Cardoso, Lead author and Quantum Optics Student Researcher at uOttawa Source: https://www.uottawa.ca/about-us/news-all/uottawa-researchers-clear-path-turbulence-free-quantum-communication Tags: Quantum News There is so much happening right now in the field of technology, whether AI or the march of robots. Adrian is an expert on how technology can be transformative, especially frontier technologies. But Quantum occupies a special space. Quite literally a special space. A Hilbert space infact, haha! Here I try to provide some of the news that is considered breaking news in the Quantum Computing and Quantum tech space. Latest Posts by Quantum News: Boston University Seeks Proposals for NSF’s $2M National Quantum & Nanotechnology Infrastructure February 25, 2026 Harvard SEAS Develops Microscopic Mirrors for Next-Gen Quantum Networks February 25, 2026 NQCC Quantum Fringe 2026 Festival Of Quantum February 25, 2026