The Kleiman-Piene Conjecture and node polynomials for plane curves in P3

Abstract

For a relative effective divisor C on a smooth projective family of surfaces q:S→ B, we consider the locus in B over which the fibres of C are δ-nodal curves. We prove a conjecture by Kleiman and Piene on the univerality of an enumerating cycle on this locus. We propose a bivariant class γ(C)∈ A*(B) motivated by the BPS calculus of Pandharipande and Thomas, and show that it can be expressed universally as a polynomial in classes of the form q*(c1(O(C))a c1(TS/B)b c2(TS/B)c). Under an ampleness assumption, we show that γ(C)[B] is the class of a natural effective cycle with support equal to the closure of the locus of δ-nodal curves. Finally, we will apply our method to calculate node polynomials for plane curves intersecting general lines in P3. We verify our results using 19th century geometry of Schubert.