Math @ Duke

Publications [#246887] of JianGuo Liu
Papers Published
 Chae, D; Liu, JG, Blowup, Zero α Limit and the Liouville Type Theorem for the EulerPoincaré Equations,
Communications in Mathematical Physics, vol. 314 no. 3
(2012),
pp. 671687, ISSN 00103616 [doi]
(last updated on 2018/09/24)
Abstract: In this paper we study the EulerPoincaré equations in ℝ N. We prove local existence of weak solutions in W 2,p(ℝ N),p>N, and local existence of unique classical solutions in H k(ℝ N),k> N/2+3, as well as a blowup criterion. For the zero dispersion equation (α = 0) we prove a finite time blowup of the classical solution. We also prove that as the dispersion parameter vanishes, the weak solution converges to a solution of the zero dispersion equation with sharp rate as α → 0, provided that the limiting solution belongs to C([0,T); H k(ℝ N)) with k > N/2 + 3. For the stationary weak solutions of the EulerPoincaré equations we prove a Liouville type theorem. Namely, for α > 0 any weak solution u ∈ H 1(ℝ N) is u=0; for α= 0 any weak solution u ∈ L 2(ℝ N) is u=0. © 2012 SpringerVerlag.


dept@math.duke.edu
ph: 919.660.2800
fax: 919.660.2821
 
Mathematics Department
Duke University, Box 90320
Durham, NC 277080320

