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Quantum security

by Mark Rowe

Cryptography protects bank accounts and identities from fraud, allowing online retail. But the potential introduction of yet more powerful, quantum, computers could leave our data vulnerable to attack.

Researchers at the University of Bristol’s Quantum Engineering Technology Labs (QETLabs) have developed tiny microchip circuits which exploit the strange world of quantum mechanics and provide security enhanced by the laws of quantum physics. These devices distribute cryptographic keys using the quantum properties of entanglement, superposition and the absolute randomness provided by quantum behaviour, which is reproducible by no other means.

Principal investigator Professor Mark Thompson said: “The system we have developed allows information to be exchanged using single photons of light in a quantum state. If an eavesdropper hacks your transmission, they will collapse the fragile quantum states and the system will immediately alert you to their presence and terminate the transmission.”

This work, published in the February issue of Nature Communications, has demonstrated the world’s first chip-to-chip quantum secured communication system, using microchip circuits just a few millimetres in size. This international collaboration, including researchers from Bristol, Glasgow and NiCT in Japan, used commercial semiconductor chip manufacturers to make their devices – in much the same way as Intel pattern silicon to make the latest central processing units (CPUs).

However, instead of using electricity these miniaturised devices used light to encode information at the single photon level, providing encryption keys with an unlimited lifetime.

Lead author Philip Sibson, added: “Our research opens the way to many applications that have, until now, been infeasible. The technology is miniaturised for handheld devices, has enhanced functionality for telecommunications networks, and employs cost-effective manufacturing to feasibly deploy quantum key distribution technology in the home.”

The Bristol team has continued developing this technology, demonstrating a design that allows the same functionality in a complementary metal-oxide-semiconductor (CMOS) compatible process, appearing in the February issue of Optica.

While the first devices used a more expensive and complex manufacturing approach, these next generation devices are fabricated in standard silicon, paving the way for direct integration with microelectronic circuits. This will the researchers say ultimately lead to integration in every day electrical devices, such as laptops and mobile phones.

Dr Chris Erven said: “As part of the UK Quantum Communications Hub, we are in the process of deploying these devices throughout the heart of the Bristol City fibre-optic network, allowing us to test out these ultra-secure communications systems in real-world scenarios.”

This work has been supported by the UK Quantum Communication Hub, part of the National Network of Quantum Technology hubs, demonstrating the next generation of quantum technologies. Through the University of Bristol Quantum Technology Enterprise Centre (QTEC), the commercial potential of this technology is being explored by KETS Quantum Security Ltd.

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