NLS blowup: Difference between revisions

Latest revision as of 06:12, 21 July 2007

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In the $L^{2}\,$ -supercritical focussing NLS one has blowup whenever the Hamiltonian is negative, thanks to Glassey's virial inequality

\partial _{t}^{2}\int x^{2}|u|^{2}dx\leq H(u)

;

see e.g. OgTs1991. By scaling this implies that we have instantaneous blowup in $H^{s}\,$ for $s<s_{c}\,$ in the focusing case. In the defocusing case blowup
is not known, but the $H^{s}\,$ norm can still get arbitrarily large arbitrarily quickly for $s<s_{c}\,$ CtCoTa-p2. In addition, the work about sharp criteria of blowup and global existence, see Zhj2002a, Zhj2002b.

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 {{stub}}
-<br /> In the <math>L^2\,</math>-supercritical focussing [[NLS]] one has blowup whenever the Hamiltonian is negative, thanks to Glassey's virial inequality
+<br /> In the <math>L^2\,</math>-supercritical focussing [[NLS]] one has blowup whenever the Hamiltonian is negative, thanks to Glassey's [[virial inequality]]
 <center><math>\partial^2_t \int x^2 |u|^2 dx \leq H(u)</math>;</center>

NLS blowup: Difference between revisions

Latest revision as of 06:12, 21 July 2007

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