High Performance Single-Error-Correcting Quantum Codes for Amplitude Damping

Author

Shor, Peter W. ; Smith, Graeme ; Smolin, John A. ; Zeng, Bei

Author_Institution

Dept. of Math., Massachusetts Inst. of Technol., Cambridge, MA, USA

Volume

57

Issue

10

fYear

2011

Firstpage

7180

Lastpage

7188

Abstract

We construct families of high performance quantum amplitude damping codes. All of our codes are nonadditive and most modestly outperform the best possible additive codes in terms of encoded dimension. One family is built from nonlinear error-correcting codes for classical asymmetric channels, with which we systematically construct quantum amplitude damping codes with parameters better than any prior construction known for any block length n ≥ 8 except n=2r-1. We generalize this construction to employ classical codes over GF(3) with which we numerically obtain better performing codes up to length 14. Because the resulting codes are of the codeword stabilized (CWS) type, conceptually simple (though potentially computationally expensive) encoding and decoding circuits are available.

Keywords

channel coding; decoding; error correction codes; nonlinear codes; CWS type; additive code; classical asymmetric channel; classical code; codeword stabilized type; decoding circuit; encoded dimension; encoding circuit; nonadditive code; nonlinear error-correcting code; quantum amplitude damping code; single-error-correcting quantum code; Binary codes; Cascading style sheets; Damping; Error correction codes; Noise; Quantum computing; Quantum mechanics; Amplitude damping; asymmetric codes; nonadditive codes; quantum codes;

fLanguage

English

Journal_Title

Information Theory, IEEE Transactions on

Publisher

ieee

ISSN

0018-9448

Type

jour

DOI

10.1109/TIT.2011.2165149

Filename

6034755