Encoding and Construction of Quantum Codes from (γ,)-cyclic Codes over a Class of Non-chain Rings
Abstract
Let Fq be a finite field of q=pm elements where p is a prime and m is a positive integer. This paper considers (γ,)-cyclic codes over a class of finite non-chain commutative rings Rq,s=Fq[v1,v2,…,vs]/ vi-vi2,vivj=vjvi=0 where γ is an automorphism of Rq,s, is a γ-derivation of Rq,s and 1≤ i≠ j≤ s for a positive integer s. Here, we show that a (γ,)-cyclic code of length n over Rq,s is the direct sum of (θ,)-cyclic codes of length n over Fq, where θ is an automorphism of Fq and is a θ-derivation of Fq. Further, necessary and sufficient conditions for both (γ,)-cyclic and (θ,)-cyclic codes to contain their Euclidean duals are established. Then, we obtain many quantum codes by applying the dual containing criterion on the Gray images of these codes. These codes have better parameters than those available in the literature. Finally, the encoding and error-correction procedures for our proposed quantum codes are discussed.
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