Divisibility of Trace Codes

Abstract

A linear code is said to be Δ-divisible if the Hamming weights of all its codewords are divisible by Δ. The p-adic valuation of a code is defined as the greatest integer t such that the code is pt-divisible. In this paper, we establish a divisibility criterion for trace codes. Specifically, this criterion provides a systematic method to determine the p-adic valuation of the associated trace code, thereby extending Ward's classical divisibility criterion from standard generating sets (or matrices) to generalized generator matrices over an extension field. Furthermore, we present two applications of our framework. The first application provides a concise proof of the celebrated divisibility results on abelian codes established by Delsarte and McEliece. The second application establishes several explicit lower bounds on the p-adic valuation of the number of solutions over Fqm (where q = pe) to the Artin-Schreier type equation f(x1,…,xk)=yq-y . In particular, under the condition (d,qm-1q-1)=1, we determine the exact minimum p-adic valuation of the number of solutions when f is restricted to homogeneous polynomials of degree d.