Some Generalizations of Good Integers and Their Applications in the Study of Self-Dual Negacyclic Codes
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Good integers introduced in 1997 form an interesting family of integers that has been continuously studied due to their rich number theoretical properties and wide applications. In this paper, we have focused on classes of 2^β-good integers, 2^β-oddly-good integers, and 2^β-evenly-good integers which are generalizations of good integers. Properties of such integers have been given as well as their applications in characterizing and enumerating self-dual negacyclic codes over finite fields. An alternative proof for the characterization of the existence of a self-dual negacyclic code over finite fields have been given in terms of such generalized good integers. A general enumeration formula for the number of self-dual negacyclic codes of length n over finite fields has been established. For some specific lengths, explicit formulas have been provided as well. Some known results on self-dual negacyclic codes over finite fields can be formalized and viewed as special cases of this work.
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