Soliton Resolution for the Short-pluse Equation

Abstract

In this paper, we study the Cauchy problem for the focusing nonlinear short-pluse equation by using ∂ steepest descent method. align &uxt=u+16(u3)xx, \\ &u(x,0)=u0(x)∈ H1,1(R), align where H1,1(R) is a weighted Sobolev space. Because the spectral variable z is the same order in the WKI-type Lax pair, we construct the solution of SP equation in the new scale (y,t), whereas the original scale (x,t) is given in terms of functions in the new scale and the solution of Riemann-Hilbert problem. In any fixed space-time cone of the new scale (y,t) which stratify that v1≤ v1 ∈ R- and =yt<0, equation C(y1,y2,v1,v2) = (y,t) ∈ R2|y=y0+vt, y0 ∈[y1,y2], v∈[v1,v2], equation we compute the long time asymptotic expansion of the solution u(x,t), which prove soliton resolution conjecture consisting of three terms: the leading order term can be characterized with an N(I)-soliton whose parameters are modulated by a sum of localied soliton-soliton interactions as one moves through the cone; the second t-1/2 order term coming from soliton-radiation interactions on continuous spectrum up to an residual error order O(|t|-1) from a ∂ equation. Our results also show that soliton solutions of short-pluse equation are asymptotically stable.