Definition

(as a vector field on the jet bundle)

An evolutionary vector field is a vector field $v$ on the jet bundle $J^\infty_\Sigma(E)$ which is vertical with respect to the projection $\pi_\infty: J^\infty_\Sigma E \to \Sigma$ such that the following equivalent conditions hold:

1. The Lie derivative $\mathcal{L}_v$ satisfies

   1. $\mathcal{L}_v d = d \mathcal{L}_v$,

   2. $\mathcal{L}_v = \iota_v \delta + \delta \iota_v$,

   where $d$ is the horizontal derivative on differential forms on $J^\infty E$, while $\delta$ is the vertical derivative.

2. $v$ preserves the contact ideal?, i.e., for which $\mathcal{L}_v\theta$ is a contact form whenever $\theta$ is a contact form.

We denote the subspace of evolutionary vector fields as $\mathfrak{X}_{ev}(J^\infty_\Sigma(E)) \subset \mathfrak{X}_V(J^\infty_\Sigma(E))$.

Definition

Let $v \in \mathfrak{X}_{ev}(J^\infty E)$ be an evolutionary vector field. Its characteristic is the map $\pi_{\infty,0*} \circ v: J^\infty E \to V E$.

Definition

An evolutionary vector field is a map $w \colon J^\infty_\Sigma(E) \to V_\Sigma E$ from the jet bundle $J^\infty E$ to the vertical tangent bundle $V_\Sigma E$, such that

where $\nu: V_\Sigma E \to E$ is the bundle map of $V_\Sigma E$ and $\pi_{\infty,0}: J^\infty_\Sigma(E) \to E$ is the target map of the jet bundle.

Definition

Let $w$ be an evolutionary vector field in the sense of def. . Its prolongation to $J^\infty_\Sigma E$ is the unique vertical vector field $pr w$ on $J^\infty_\Sigma E$ such that

1. $w$ and $pr w$ agree on functions on $E$

2. $pr w$ preserves the contact ideal, i.e., $\mathcal{L}_v\theta$ is a contact form whenever $\theta$ is a contact form.