Global strong solutions of 3D compressible Navier–Stokes equations with short pulse type initial data

Short pulse initial datum is referred to the one supported in the ball of radius δ and with amplitude δ12 which looks like a pulse. It was first introduced by Christodoulou to prove the formation of black holes for Einstein equations and also to catch the shock formation for compressible Euler equations. The aim of this article is to consider the same type initial data, which allow the density of the fluid to have large amplitude δ-αγ with δ∈ (0 , 1] , for the compressible Navier–Stokes equations. We prove existence and uniqueness of global strong solutions. Moreover, we show that the initial bump region of the density with large amplitude will disappear within a very short time. As a consequence, we obtain the global dynamic behavior of the solutions and the boundedness of ‖∇u‖L1([0,∞);L∞) . The key ingredients of the proof lie in the new observations for the effective viscous flux and new decay estimates for the density via the Lagrangian coordinate.