A hybrid quantum key distribution protocol based on extended unitary operations and fountain codes

Hong Lai; Liyin Xue; Mehmet A. Orgun; Jinghua Xiao; Josef Pieprzyk

doi:10.1007/s11128-014-0860-5

A hybrid quantum key distribution protocol based on extended unitary operations and fountain codes

Hong Lai^*, Liyin Xue, Mehmet A. Orgun, Jinghua Xiao, Josef Pieprzyk

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

In 1984, Bennett and Brassard designed the first quantum key distribution protocol, whose security is based on quantum indeterminacy. Since then, there has been growing research activities, aiming in designing new, more efficient and secure key distribution protocols. The work presents a novel hybrid quantum key distribution protocol. The key distribution is derived from both quantum and classical data. This is why it is called hybrid. The protocol applies extended unitary operations derived from four basic unitary operations and distributed fountain codes. Compared to other protocols published so far, the new one is more secure (provides authentication of parties and detection of eavesdropping) and efficient. Moreover, our protocol still works over noisy and lossy channels.

Original language	English
Pages (from-to)	697-713
Number of pages	17
Journal	Quantum Information Processing
Volume	14
Issue number	2
DOIs	https://doi.org/10.1007/s11128-014-0860-5
Publication status	Published - Feb 2015

Keywords

extended unitary operations
fountain codes
eavesdropping detection
authentication
EPR pairs
key distribution protocols

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10.1007/s11128-014-0860-5

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abstract = "In 1984, Bennett and Brassard designed the first quantum key distribution protocol, whose security is based on quantum indeterminacy. Since then, there has been growing research activities, aiming in designing new, more efficient and secure key distribution protocols. The work presents a novel hybrid quantum key distribution protocol. The key distribution is derived from both quantum and classical data. This is why it is called hybrid. The protocol applies extended unitary operations derived from four basic unitary operations and distributed fountain codes. Compared to other protocols published so far, the new one is more secure (provides authentication of parties and detection of eavesdropping) and efficient. Moreover, our protocol still works over noisy and lossy channels.",

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AU - Xiao, Jinghua

AU - Pieprzyk, Josef

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AB - In 1984, Bennett and Brassard designed the first quantum key distribution protocol, whose security is based on quantum indeterminacy. Since then, there has been growing research activities, aiming in designing new, more efficient and secure key distribution protocols. The work presents a novel hybrid quantum key distribution protocol. The key distribution is derived from both quantum and classical data. This is why it is called hybrid. The protocol applies extended unitary operations derived from four basic unitary operations and distributed fountain codes. Compared to other protocols published so far, the new one is more secure (provides authentication of parties and detection of eavesdropping) and efficient. Moreover, our protocol still works over noisy and lossy channels.

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A hybrid quantum key distribution protocol based on extended unitary operations and fountain codes

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