Implementation of generalized quantum measurements: superadditive quantum coding, accessible information extraction, and classical capacity limit

Details Implementation of generalized quantum measurements: superadditive quantum coding, accessible information extraction, and classical capacity limit Implementation of generalized quantum measurements: superadditive quantum coding, accessible information extraction, and classical capacity limit

2003-06-05

arxiv.org/abs/quant-ph/0306034v2

Phys. Rev. A 69, 052329 (2004)

Physics

Quantum Physics

15 pages, 14 figures

Scientific paper

10.1103/PhysRevA.69.052329

Quantum information theory predicts that when the transmission resource is doubled in quantum channels, the amount of information transmitted can be increased more than twice by quantum channel coding technique, whereas the increase is at most twice in classical information theory. This remarkable feature, the superadditive quantum coding gain, can be implemented by appropriate choices of code words and corresponding quantum decoding which requires a collective quantum measurement. Recently, the first experimental demonstration was reported [Phys. Rev. Lett. 90, 167906 (2003)]. The purpose of this paper is to describe our experiment in detail. Particularly, a design strategy of quantum collective decoding in physical quantum circuits is emphasized. We also address the practical implication of the gain on communication performance by introducing the quantum-classical hybrid coding scheme. We show how the superadditive quantum coding gain, even in a small code length, can boost the communication performance of conventional coding technique.

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