Proyective Cohen-Macaulay monomial curves and their affine charts

In this paper, we explore when the Betti numbers of the coordinate rings of a projective monomial curve and one of its affine charts are identical. Given an infinite field k and a sequence of relatively prime integers a₀ = 0 < a₁ < < aₙ = d, we consider the projective monomial curve Cₖ^\, n of degree d parametrically defined by xᵢ = u^aᵢv^d-aᵢ for all i \0, , n\ and its coordinate ring kC. The curve C₁ Aₖⁿ with parametric equations xᵢ = t^aᵢ for i \1, , n\ is an affine chart of C and we denote by kC₁ its coordinate ring. The main contribution of this paper is the introduction of a novel (Gr\"obner-free) combinatorial criterion that provides a sufficient condition for the equality of the Betti numbers of kC and kC₁. Leveraging this criterion, we identify infinite families of projective curves satisfying this property. Also, we use our results to study the so-called shifted family of monomial curves, i. e. , the family of curves associated to the sequences j+a₁ < < j+aₙ for different values of j N. In this context, Vu proved that for large enough values of j, one has an equality between the Betti numbers of the corresponding affine and projective curves. Using our results, we improve Vu's upper bound for the least value of j such that this occurs.