Title :
Adaptively correcting quantum errors with entanglement
Author :
Fujiwara, Yuichiro ; Hsieh, Min-Hsiu
Author_Institution :
Dept. of Math. Sci., Michigan Technol. Univ., Houghton, MI, USA
fDate :
July 31 2011-Aug. 5 2011
Abstract :
Contrary to the assumption that most quantum error-correcting codes (QECC) make, it is expected that phase errors are much more likely than bit errors in physical devices. By employing the entanglement-assisted stabilizer formalism, we develop a new kind of error-correcting protocol which can flexibly trade error correction abilities between the two types of errors, such that high error correction performance is achieved both in symmetric and in asymmetric situations. The characteristics of the QECCs can be optimized in an adaptive manner during information transmission. The proposed entanglement-assisted QECCs require only one ebit regardless of the degree of asymmetry at a given moment and can be decoded in polynomial time.
Keywords :
adaptive codes; error correction codes; protocols; adaptively correcting quantum errors; entanglement- assisted QECC; entanglement-assisted stabilizer formalism; error-correcting protocol; information transmission; phase errors; quantum error-correcting codes; Decoding; Error correction; Error correction codes; Linear code; Noise; Parity check codes; Quantum entanglement;
Conference_Titel :
Information Theory Proceedings (ISIT), 2011 IEEE International Symposium on
Conference_Location :
St. Petersburg
Print_ISBN :
978-1-4577-0596-0
Electronic_ISBN :
2157-8095
DOI :
10.1109/ISIT.2011.6034084
