Lower bounds for Waldschmidt constants of generic lines in P3 and a Chudnovsky-type theorem

Abstract

The Waldschmidt constant αhat(I) of a radical ideal I in the coordinate ring of N measures (asymptotically) the degree of a hypersurface passing through the set defined by I in N. Nagata's approach to the 14th Hilbert Problem was based on computing such constant for the set of points in 2. Since then, these constants drew much attention, but still there are no methods to compute them (except for trivial cases). Therefore the research focuses on looking for accurate bounds for αhat(I). In the paper we deal with αhat(s), the Waldschmidt constant for s very general lines in 3. We prove that αhat(s) ≥ 2s-1 holds for all s, whereas the much stronger bound αhat(s) ≥ 2.5 s holds for all s but s=4, 7 and 10. We also provide an algorithm which gives even better bounds for αhat(s), very close to the known upper bounds, which are conjecturally equal to αhat(s) for s large enough.