Geodesics in Jet Space

Abstract

The space Jk of k-jets of a real function of one real variable x admits the structure of Carnot group type. As such, Jk admits a submetry ( submersion) onto the Euclidean plane. Horizontal lifts of Euclidean lines (which are the left-translates of horizontal one-parameter subgroups) are thus globally minimizing geodesics on Jk. All Jk-geodesics, minimizing or not, are constructed from degree k polynomials in x according to Anzaldo-Meneses and Monroy-Per\'ez, reviewed here. The constant polynomials correspond to the horizontal lifts of lines. Which other polynomials yield globally minimizers and what do these minimizers look like? We give a partial answer. Our methods include constructing an intermediate three-dimensional "magnetic" sub-Riemannian space lying between the jet space and the plane, solving a Hamilton-Jacobi (eikonal) equations on this space, and analyzing period asymptotics associated to period degenerations arising from two-parameter families of these polynomials. Along the way, we conjecture the independence of the cut time of any geodesic on jet space from the starting location on that geodesic.