Global well–posedness of a class of singular hyperbolic Cauchy problems

Abstract

The goal of this paper is to establish a global well–posedness, cone condition and loss of regularity for singular hyperbolic equations with coefficients in L1((0 , T] ; C∞(Rn)) ∩ C1((0 , T] ; C∞(Rn)) and Cauchy data in an appropriate Sobolev space tailored to a metric on the phase space. The coefficients are unbounded near the singular hyperplane t= 0 and polynomially growing as | x| → ∞. The singular behavior is characterized by the blow–up rate of the coefficients and their first t-derivatives near t= 0. In order to study the interplay of the singularity in t and unboundedness in x, we consider a class of metrics on the phase space. Our methodology relies on the use of the Planck function associated to the metric to subdivide the extended phase and to define an infinite order pseudodifferential operator for the conjugation. We also give some counterexamples.