Bounds on the number of torsion points of given order on curves embedded in their jacobians

Abstract: Working over an algebraically closed field of arbitrary characteristic we study, for integers $N\geq 2$ and $g\geq 2$, the set of points of order dividing $N$ lying on an irreducible smooth proper curve of genus $g$ embedded in its jacobian using a fixed base point. We discuss bounds on its cardinality and describe an efficient method for computing the set. Our method uses wronskians similar to those used in the study of Weierstrass points and the strength of our bounds is related to whether or not a certain multiple of the curve is contained in the negative of the theta divisor. Several examples are discussed. This generalizes our previous work [https://doi.org/10.1216/rmj.2023.53.357] dealing with the case of hyperelliptic curves embedded in their jacobian using a Weierstrass point as base point.