Reprint

Quantum Communication, Quantum Radar, and Quantum Cipher

Edited by
August 2023
156 pages
  • ISBN978-3-0365-8560-4 (Hardback)
  • ISBN978-3-0365-8561-1 (PDF)

This book is a reprint of the Special Issue Quantum Communication, Quantum Radar, and Quantum Cipher that was published in

Chemistry & Materials Science
Computer Science & Mathematics
Physical Sciences
Summary

In order to make quantum information science applicable to the real world, it is necessary to change direction to focus on engineering technology based on quantum communication theory. Consequently, we can expect the following abilities: the possibilities of ultrahigh-speed optical communication, the feasibility of all-weather sensors, and enhancing the security of the physical layer of current optical networks. In addition, clarifying decoherence properties of quantum processors in the sense of noise analysis is important for real applications of quantum technology. The aim of Special Issue was to consolidate and publish the latest research trends by researchers who are conducting research toward the above goals.

Format
  • Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
Gaussian measurement channel; classical capacity; Gaussian ensemble; accessible information; Gaussian maximizer; quantum illumination; transmon-cavity quantum memory; equivalent circuit; Schrieffer–Wolff transformation; communication channel error model; nonlinear error; burst error; cosmic ray; quantum Zeno effect; quantum jumps; irreversibility; fluorescence; Kolmogorov-like model; Everett’s interpretation; quantum communication; quantum cipher; quadrature amplitude modulation (QAM); coherent state; Gram matrix; square-root measurement (SRM); quantum communications; quantum cryptography; quantum states; non-orthogonality; least squares error; M-ary optical signal; physical cipher; optical fiber communication; optical satellite communication; quantum communication theory; entanglement; quasi-Bell state; asymmetric communication system; error performance; entanglement; radars; quantum sensing; quantum radars; entanglement assisted detection; decoy state; measurement-device independent; quantum key distribution; photon number splitting attack; statistical hypothesis testing

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