Plane polynomials and Hamiltonian vector fields determined by their singular points

Abstract

Let (f) be critical points of a polynomial f ∈ K[x,y] in the plane K2, where K is R or C. Our goal is to study the critical point map Sd, by sending polynomials f of degree d to their critical points (f) . Very roughly speaking, a polynomial f is essentially determined when any other g sharing the critical points of f satisfies that f= λ g; here both are polynomials of at most degree d, λ ∈ K*. In order to describe the degree d essentially determined polynomials, a computation of the required number of isolated critical points δ (d) is provided. A dichotomy appears for the values of δ (d); depending on a certain parity the space of essentially determined polynomials is an open or closed Zariski set. We compute the map S3, describing under what conditions a configuration of four points leads to a degree three essentially determined polynomial. Furthermore, we describe explicitly configurations supporting degree three non essential determined polynomials. The quotient space of essentially determined polynomials of degree three up to the action of the affine group Aff(K2) determines a singular surface over K.