Phase transitions for geodesic flows and the geometric potential

In this paper we study the phenomenon of phase transitions for the geodesic flow on some geometrically finite negatively curved manifolds. We define a class of potentials going slowly to zero through the cusps of $M$ for which the pressure map exhibits a phase transition. By a careful choice of the metric at the cusp we construct a geometrically finite manifold for which the geometric potential (or unstable Jacobian) exhibits a phase transition. Our results apply, in particular, to the geodesic flow on an $M$-puncture sphere, for every $M\ge 3$, and a suitable choice of Riemannian metric.