Insider Brief
- Quantum Corridor and Toshiba successfully demonstrated quantum-secured communication using QKD over a live 21.8-kilometer commercial fiber network connecting Tier III data centers in Illinois and Indiana.
- The system achieved continuous quantum key generation integrated with 800G encrypted transport, maintaining full line-rate performance with zero packet loss over 48 hours.
- The project, developed through the Chicago Quantum Exchange partnership, validates the commercial readiness of quantum-secure networking on existing U.S. carrier infrastructure.
PRESS RELEASE — Quantum Corridor, in collaboration with Toshiba International Corporation and partners, today announced the successful demonstration of quantum-secured communication over a live metropolitan fiber network connecting Tier III data centers in Illinois and Indiana—an achievement that marks a critical step toward building a commercially scalable, quantum-safe internet for the United States.
The team successfully implemented Quantum Key Distribution (QKD) over commercial fiber infrastructure spanning from Chicago’s ORD 10 Data Center (350 Cermak) to the Digital Crossroad Data Center (100 Digital Crossroad Drive) in Hammond, Ind. The experiment validated the use of Toshiba’s multiplexed QKD technology and Ciena’s high-speed coherent transport systems to deliver continuous, secure key generation and high-throughput encryption across a 21.8km segment of Quantum Corridor’s live high-capacity optical network.
In QKD, the cryptographic key is co-generated through the interplay of quantum physics— where single photons’ quantum states establish correlated randomness— and classical communication, which reconciles and verifies that randomness into an identical secret key at both ends. This is the first on any commercial carrier in the U.S.
“This is a historic step toward realizing a quantum-secure communications fabric for America’s digital economy, defense, life science industry and beyond,” said Ryan Lafler, President & CTO of Quantum Corridor. “Working with Toshiba and our regional partners, we’ve shown that quantum-safe networking can be deployed today—on existing infrastructure—to protect the data that underpins our most critical systems.”
Read full Quantum Corridor-Toshiba Technical White Paper
A Milestone for Quantum-Resilient Infrastructure
Using Toshiba’s ETSI-compliant QKD systems, the network achieved secure key rates averaging 1,500 kbps, far exceeding typical field expectations. These quantum-generated keys were seamlessly integrated into Ciena Waveserver 5 800G coherent encryption modules, which provided AES-256-GCM encryption. The FIPS 140-3 Level 2 certified solution securely obtained a fresh set of QKD keys every 90 seconds, showcasing the interoperability and scalability of quantum-secured transport in a commercial setting.
“This collaboration marks a major milestone for quantum-secure communications, moving use cases out of the lab and into the real world on existing fiber,” said Terry Cronin, Vice President of Business Development at Toshiba International Corporation. “This opens the door to faster innovation, broader adoption, and stronger collaboration across the quantum ecosystem, accelerating customer adoption of quantum-secure networks.”
The system maintained 100% line-rate throughput and zero packet loss over 48 hours of continuous encrypted traffic, demonstrating the readiness of QKD for real-world, high-availability network operations—offering nearly instantaneous and unhackable quantum communications for sensitive data in finance, healthcare, defense and government applications.
“It is extremely exciting to witness QKD deployed and functioning on a fully commercial network under real world conditions,” said Dr. Michael Manfra, Director of the Purdue University Quantum Science and Engineering Institute. “This achievement marks a significant transitioning towards commercially viable secure quantum key distribution across state boundaries in a major metropolitan center. This result from Quantum Corridor and Toshiba bodes well for further commercial expansion in the Midwest Quantum heartland. “
A Regional Collaboration
Both CQE corporate partners, the Quantum Corridor and Toshiba collaboration grew from the Chicago Quantum Exchange partnership program, which accelerates the progress of quantum innovations by connecting organizations to advance research and development and address gaps in the quantum ecosystem.
“The partnerships that fueled this work highlight the essential role of collaboration across borders and between organizations in accelerating quantum technology development,” said Dr. David Awschalom, the University of Chicago’s Liew Family professor of molecular engineering and the director of the CQE. “This is why building a strong quantum ecosystem matters. By bringing teams of researchers with different strengths and assets together, we make projects like this possible.”
Quantum Corridor piloted this project using Toshiba QKD equipment that was on loan to the Chicago Quantum Exchange. In addition, a University of Chicago graduate student provided valuable input on the use of the QKD unit.
Visit www.quantumcorridor.com for more information.
