Mark Godfrey scite author profile

Improvement in secure transmission of information is an urgent need for governments, corporations and individuals. Quantum key distribution (QKD) promises security based on the laws of physics and has rapidly grown from proof-of-concept to robust demonstrations and deployment of commercial systems. Despite these advances, QKD has not been widely adopted, and large-scale deployment will likely require chip-based devices for improved performance, miniaturization and enhanced functionality. Here we report low error rate, GHz clocked QKD operation of an indium phosphide transmitter chip and a silicon oxynitride receiver chip—monolithically integrated devices using components and manufacturing processes from the telecommunications industry. We use the reconfigurability of these devices to demonstrate three prominent QKD protocols—BB84, Coherent One Way and Differential Phase Shift—with performance comparable to state-of-the-art. These devices, when combined with integrated single photon detectors, pave the way for successfully integrating QKD into future telecommunications networks.

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Using quantum key distribution for cryptographic purposes: A survey

Alléaume

Branciard

Bouda

et al. 2014

Theoretical Computer Science

164

105

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The appealing feature of quantum key distribution (QKD), from a cryptographic viewpoint, is the ability to prove the information-theoretic security (ITS) of the established keys. As a key establishment primitive, QKD however does not provide a standalone security service in its own: the secret keys established by QKD are in general then used by a subsequent cryptographic applications for which the requirements, the context of use and the security properties can vary. It is therefore important, in the perspective of integrating QKD in security infrastructures, to analyze how QKD can be combined with other cryptographic primitives.The purpose of this survey article, which is mostly centered on European research results, is to contribute to such an analysis. We first review and compare the properties of the existing key establishment techniques, QKD being one of them. We then study more specifically two generic scenarios related to the practical use of QKD in cryptographic infrastructures: 1) using QKD as a key renewal technique for a symmetric cipher over a point-to-point link ; 2) using QKD in a network containing many users with the objective of offering any-to-any key establishment service. We discuss the constraints as well as the potential interest of using QKD in these contexts. We finally give an overview of challenges relative to the development of QKD technology that also constitute potential avenues for cryptographic research.

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Low cost and compact quantum key distribution

et al. 2006

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We present the design of a novel free-space quantum cryptography system, complete with purpose-built software, that can operate in daylight conditions. The transmitter and receiver modules are built using inexpensive off-the-shelf components. Both modules are compact allowing the generation of renewed shared secrets on demand over a short range of a few metres. An analysis of the software is shown as well as results of error rates and therefore shared secret yields at varying background light levels. As the system is designed to eventually work in short-range consumer applications, we also present a use scenario where the consumer can regularly 'top up' a store of secrets for use in a variety of one-time-pad and authentication protocols.

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Integrated Photonic Devices for Quantum Key Distribution

Sibson

Godfrey

Erven

et al. 2015

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Low Cost Quantum Secret Key Growing for Consumer Transactions

Duligall

Godfrey

Lynch

et al. 2007

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We present the design and development of a novel free-space quantum cryptography system complete with purpose-built software that can operate in daylight conditions. Current commercial quantum cryptography systems are expensive, use purpose-built components and are made-toorder. Their market base is primarily military, financial services or high intellectual property organisations. This work is a departure from this arena and represents a ground-up approach to quantum cryptography, exploring the possibilities of bringing secure electronic communication and data exchange to the consumer.The transmitter and receiver modules are built using inexpensive off-the-shelf components and are both compact allowing the generation of renewed identical keys on demand over a short range. A full software system has been developed to handle synchronization, error estimation and correction and privacy amplification. The intended application is the use of quantum secret key growing in the secure exchange of transaction information between a handheld transmitter and a

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Mark Godfrey

Chip-based quantum key distribution

Using quantum key distribution for cryptographic purposes: A survey

Low cost and compact quantum key distribution

Integrated Photonic Devices for Quantum Key Distribution

Low Cost Quantum Secret Key Growing for Consumer Transactions

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