I'm currently reading William Burke's book Applied Differential Geometry and he uses a lot in the development of Lagrangian Mechanics the notion of a Contact Bundle. He does explain intuitively what the contact bundle should be, but I really didn't get yet the intuition, nor I got the rigorous construction of it.
He says: "Locally an unparametrized curve is just a one-dimensional submanifold. The local approximation to this is called a line element... If you wish to be precise, a line element is an equivalence class of curves, and is also, therefore, an equivalence class of tangent vectors, say, $[v]$, under $v\sim kv$, where $k$ can be positive or negative, but nonzero. The line-element contact bundle that I call $CM$ consists of pairs, a point in the manifold $M$, and a line element at that point".
So, my understanding is that we construct it this way: at each point $p\in M$ we consider $T_p M$ the tangent space at $p$ and introduce an equivalence relation $\sim$ by $v\sim kv$. Then we call the quotient set of this relation $C_p M$ and define $CM = \bigcup_{p\in M} \{p\}\times C_pM$ like we do for the tangent bundle. Now, what is the topology on $CM$?
Apart from that, I do not understood yet the intuition on this bundle. Is there some material out there more detailed on that matter?
Thanks very much in advance.