Hermitian codes and complete intersections

Abstract

In this paper we present a geometrical characterization for the minimum-weight codewords of the Hermitian codes over the fields Fq2 in the third and fourth phase, namely with distance d ≥ q2-q. We consider the unique writing μ q + λ (q+1) of the distance d with μ, λ non negative integers, and μ ≤ q, and prove that the minimum-weight codewords correspond to complete intersection divisors cut on the Hermitian curve H by curves X of degree μ+λ having xμ yλ as leading term w.r.t. the DegRevLex term ordering (with y>x). Moreover, we show that any such curve X corresponds to minimum-weight codewords provided that the complete intersection divisor H X is made of simple Fq2-points. Finally, using this geometric characterization, we propose an algorithm to compute the number of minimum weight codewords and we present comparison tables between our algorithm and MAGMA command MinimumWords.