Differential Goppa Codes
Abstract
Rosenbloom and Tsfasman, in their foundational work on the -metric, introduced algebraic-geometric codes defined by multiple points on a smooth projective curve . This construction involves a divisor and another divisor , where are distinct rational points with and . Although these codes are significant, their formal development for arbitrary genus remains incomplete in the literature, as most studies have concentrated on the genus case. We present a rigorous treatment of this class of codes. Starting with a smooth projective curve , an invertible sheaf , and an effective divisor where the are not necessarily equal, as well as tuples of uniformizers at the points of and trivializations for the localizations , the associated differential Goppa code is defined. This code arises from the theory of -jets of invertible sheaves on curves, which enables the description of codewords using Hasse-Schmidt derivatives of sections of . The variation of the code under changes in the data is examined, and the group acting on these parameters is described. The behavior of the minimum Hamming distance under such variations is analyzed, with explicit examples provided for curves of genus and . A duality theorem is established, involving principal parts of meromorphic differential forms. It is demonstrated that Goppa codes constitute a proper subclass of differential Goppa codes, and that every linear code admits a differential Goppa code structure on using only two rational points.
Keywords
Cite
@article{arxiv.2603.04049,
title = {Differential Goppa Codes},
author = {David González González and Ángel Luis Muñoz Castañeda and Luis Manuel Navas Vicente},
journal= {arXiv preprint arXiv:2603.04049},
year = {2026}
}
Comments
43 pages, 0 figures