A new type of air-filled fiber optic cable could offer major security benefits

Hollow optical fiber cables better preserve quantum signals, argues BT

When you purchase through links on our site, we may earn an affiliate commission.Here’s how it works.

BT claims to have achieved a new milestone in the development of quantum-secure communications by conducting the world’s first trial of Quantum Key Distribution (QKD) over a six-kilometer-long cable of hollow coreoptical fiber.

QKD is a secure communication protocol that leveragessecurity keysbased on the laws of physics rather than mathematical complexity.

Explaining the significance of its trial,BT saysthat unlike traditional optical fiber that’s made of solid strands of glass that ferry information by channeling light signals emitted by laser transmitters, the new hollow core fiber is in fact filled with nothing but air that’s encased in a ring of glass.

BT argues that the hollow cables are better suited to the peculiarities of QKD, as it reduces the possibility of interference.

Secure quantum communication

Ferrying QKD signals is a hot topic of research. A couple of months back, Cambridge-based researchers from Toshiba shared details about their project that successfullyferried QKD signals over 600 kms.

Toshiba argued that while current commercial QKD systems are limited to about 100-200 km of fiber, its dual band stabilization technique will help preserve the signals over hundreds of kilometers.

On the other hand, BT has taken a different approach by replacing the traditional optical cables with hollow ones created by Lumenisity Limited, a spin-out from the University of Southampton.

Are you a pro? Subscribe to our newsletter

Sign up to the TechRadar Pro newsletter to get all the top news, opinion, features and guidance your business needs to succeed!

BT argues that thanks to Lumenisity’s hollow optical cables, commercial telecommunications equipment don’t need to be optimized in order to send a data-encrypted key.

“We’ve proven a range of benefits that can be realized by deploying hollow core fiber for quantum-secure communication. Hollow core fiber’s low latency and ability to send QKD over a single fiber with other signals is a critical advancement for the future of secure communications,” noted Professor Andrew Lord, BT’s Head of Optical Network Research.

With almost two decades of writing and reporting on Linux, Mayank Sharma would like everyone to think he’sTechRadar Pro’sexpert on the topic. Of course, he’s just as interested in other computing topics, particularly cybersecurity, cloud, containers, and coding.

This dangerous new malware is hitting Windows devices by hiding in games

Windows PCs targeted by new malware hitting a vulnerable driver

Steps to take when your phone number is publicly listed online