Quantum error rejection for faithful quantum communication over noise channels

Quantum state transmission is a prerequisite for various quantum communication networks. The channel noise inevitably introduces distortion of quantum states passing through either a free-space channel or a fibre channel, which leads to errors or decreases the security of a practical quantum communi...

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Published inScience China. Physics, mechanics & astronomy Vol. 62; no. 11; p. 110301
Main Authors Guo, Peng-Liang, Gao, Cheng-Yan, Li, Tao, Li, Xi-Han, Deng, Fu-Guo
Format Journal Article
LanguageEnglish
Published Beijing Science China Press 01.11.2019
Springer
Springer Nature B.V
Subjects
Astronomy
Atoms
Channel noise
Channels
Classical and Continuum Physics
Communication
Communication networks
Error correction & detection
Errors
Invited Review
Methods
Observations and Techniques
Parity
Photons
Physics
Physics and Astronomy
Rejection
Science
quantum state transmission
collective noise
quantum error rejection
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Summary:Quantum state transmission is a prerequisite for various quantum communication networks. The channel noise inevitably introduces distortion of quantum states passing through either a free-space channel or a fibre channel, which leads to errors or decreases the security of a practical quantum communication network. Quantum error rejection is a useful technology to faithfully transmit quantum states over large-scale quantum channels. It provides the communication parties with an uncorrupted quantum state by rejecting error states. Usually, additional photons or degrees of freedom are required to overcome the adverse effects of channel noise. As quantum error rejection method consumes less quantum resource than other anti-noise methods, it is more convenient to perform error-rejection quantum state transmission with current technology. In this review, several typical quantum error-rejection schemes for single-photon state transmission are introduced in brief and some error-rejection schemes for entanglement distribution are also briefly presented.
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ISSN:1674-7348
1869-1927
DOI:10.1007/s11433-019-9396-8