Lower bound for the rate of blow-up of singular solutions of the Zakharov system in 3

Abstract

We consider the scalar Zakharov system in 3 for initial conditions ((0), n(0), nt(0)) ∈ H+1/2 × H × H-1 , 0≤ ≤ 1. Assuming that the solution blows up in a finite time t* < ∞, we establish a lower bound for the rate of blow-up of the corresponding Sobolev norms in the form \|(t)\|H+1/2 +\|n(t)\|H + \|nt(t)\|H-1 > C(t*-t)-θ with θ = 14(1+ 2 )-. The analysis is a reappraisal of the local wellposedness theory of Ginibre, Tsutsumi and Velo (1997) combined with an argument developed by Cazenave and Weissler (1990) in the context of nonlinear Schr\"odinger equations.