Minimum-weight codewords of the Hermitian codes are supported on complete intersections

Abstract

Let H be the Hermitian curve defined over a finite field Fq2. In this paper we complete the geometrical characterization of the supports of the minimum-weight codewords of the algebraic-geometry codes over H, started in [1]: if d is the distance of the code, the supports are all the sets of d distinct Fq2-points on H complete intersection of two curves defined by polynomials with prescribed initial monomials w.r.t. DegRevLex. For most Hermitian codes, and especially for all those with distance d≥ q2-q studied in [1], one of the two curves is always the Hermitian curve H itself, while if d<q the supports are complete intersection of two curves none of which can be H. Finally, for some special codes among those with intermediate distance between q and q2-q, both possibilities occur. We provide simple and explicit numerical criteria that allow to decide for each code what kind of supports its minimum-weight codewords have and to obtain a parametric description of the family (or the two families) of the supports. [1] C. Marcolla and M. Roggero, Hermitian codes and complete intersections, arXiv preprint arXiv:1510.03670 (2015).