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Quantum codes from nearly self-orthogonal quaternary linear codes

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Abstract

Construction X and its variants are known from the theory of classical error control codes. We present instances of these constructions that produce binary stabilizer quantum error control codes from arbitrary quaternary linear codes. Our construction does not require the classical linear code \(C\) that is used as the ingredient to satisfy the dual containment condition, or, equivalently, \(C^{\perp _h}\) is not required to satisfy the self-orthogonality condition. We prove lower bounds on the minimum distance of quantum codes obtained from our construction. We give examples of record breaking quantum codes produced from our construction. In these examples, the ingredient code \(C\) is nearly dual containing, or, equivalently, \(C^{\perp _h}\) is nearly self-orthogonal, by which we mean that \(\dim (C^{\perp _h})-\dim (C^{\perp _h}\cap C)\) is positive but small.

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Acknowledgments

This research was supported by the Natural Sciences and Engineering Research Council of Canada (NSERC) and by the Collaborative Research Group “Mathematics of Quantum Information” of the Pacific Institute for the Mathematical Sciences (PIMS).

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Authors and Affiliations

  1. Department of Mathematics, Simon Fraser University, Burnaby, BC , V5A 1S6, Canada

    Petr Lisoněk & Vijaykumar Singh

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  1. Petr Lisoněk
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  2. Vijaykumar Singh
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Correspondence to Petr Lisoněk.

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This is one of several papers published in Designs, Codes and Cryptography comprising the “Special Issue on Coding and Cryptography”.

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Lisoněk, P., Singh, V. Quantum codes from nearly self-orthogonal quaternary linear codes. Des. Codes Cryptogr. 73, 417–424 (2014). https://doi.org/10.1007/s10623-014-9934-8

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  • DOI: https://doi.org/10.1007/s10623-014-9934-8

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