Jacobian conjecture in $\mathbb R^2$

Abstract: Jacobian conjecture states that ifis a polynomial map such that the Jacobian of F is a nonzero constant, then F is injective.This conjecture is still open for all n ≥ 2, and for both C n and R n . Here we provide a positive answer to the Jacobian conjecture in R 2 via the tools from the theory of dynamical systems.Let (f, g) : R 2 (C 2 ) → R 2 (C 2 ) be a polynomial map. We denote by J(f, g) the Jacobian matrix of the map (f, g), and by D(f, g) the Jacobian of (f, g),The classical Jacobian conjecture states th… Show more

“…For the special case of planar polynomial maps with constant, non-zero Jacobian determinant, the level set connectedness was considered in [21,22,23]. In [22,23] an approach was proposed based on the commutativity of the Hamiltonian flows having P (x, y) and Q(x, y) as Hamiltonian functions, similarly to what was done in [19].…”

“…The key point in the proof of our main result is the level set connectedness. This property has already been used in previous papers [21,22,23].…”

Injectivity of non-singular planar maps with one convex component

“…For the special case of planar polynomial maps with constant, non-zero Jacobian determinant, the level set connectedness was considered in [21,22,23]. In [22,23] an approach was proposed based on the commutativity of the Hamiltonian flows having P (x, y) and Q(x, y) as Hamiltonian functions, similarly to what was done in [19].…”

“…The key point in the proof of our main result is the level set connectedness. This property has already been used in previous papers [21,22,23].…”

Injectivity of non-singular planar maps with one convex component