Modified Korteweg-de Vries on R: Difference between revisions
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The local and global [[well-posedness]] theory for the [[modified Korteweg-de Vries equation]] on the line and half-line is as follows. | |||
* Scaling is <span class="SpellE">s_c</span> = -1/2. | * Scaling is <span class="SpellE">s_c</span> = -1/2. | ||
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** [[Soliton]]s are asymptotically H^1 stable [MtMe-p3], [<span class="SpellE">MtMe</span>-p] | ** [[Soliton]]s are asymptotically H^1 stable [MtMe-p3], [<span class="SpellE">MtMe</span>-p] | ||
[[Category:Integrability]] | |||
[[Category:Airy]] | |||
[[Category:Equations]] | [[Category:Equations]] |
Revision as of 07:40, 31 July 2006
The local and global well-posedness theory for the modified Korteweg-de Vries equation on the line and half-line is as follows.
- Scaling is s_c = -1/2.
- LWP in H^s for s >= 1/4 KnPoVe1993
- Was shown for s>3/2 in GiTs1989
- This is sharp in the focussing case KnPoVe-p, in the sense that the solution map is no longer uniformly continuous for s < 1/4.
- The same result has also been established for the half-line [CoKe-p], assuming boundary data is in H^{(s+1)/3} of course.
- Global weak solutions in L^2 were constructed in Ka1983. Thus in L^2 one has global existence but no uniform continuity.
- Uniqueness is also known when the initial data lies in the weighted space <x>^{3/8} u_0 in L^2 GiTs1989
- LWP has also been demonstrated when <xi>^s hat(u_0) lies in L^{r\u2019} for 4/3 < r <= 2 and s >= ½ - 1/2r [Gr-p4]
- GWP in H^s for s > 1/4 CoKeStTkTa-p2, via the KdV theory and the Miura transform, for both the focussing and defocussing cases.
- Was proven for s>3/5 in FoLiPo1999
- Is implicit for s >= 1 from KnPoVe1993
- On the half-line GWP is known when s >= 1 and the boundary data is in H^{11/12}, assuming compatibility and small L^2 norm [CoKe-p]
- GWP for smooth data can also be achieved from inverse scattering methods [BdmFsShp-p]; the same approach also works on an interval [BdmShp-p].
- Solitons are asymptotically H^1 stable [MtMe-p3], [MtMe-p]