Quintic NLW/NLKG on R2: Difference between revisions

Revision as of 07:10, 2 August 2006

Scaling is $s_{c}=1/2$ .
LWP for $s\geq 1/2$ $s\geq 1/2$ by Strichartz estimates (see e.g. LbSo1995; earlier references exist)
- When $s=1/2$ the time of existence depends on the profile of the data and not just on the norm.
- For $s<s_{c}$ one has instantaneous blowup in the focusing case, and unbounded growth of $H^{s}$ norms in the defocusing case CtCoTa-p2
GWP for $s>3/4$ $s>3/4$ for defocussing NLW/NLKG Fo-p
- For $s\geq 1$ this follows energy conservation.
- One also has GWP and scattering for data with small $H^{1/2}$ norm for general quintic non-linearities (and for either NLW or NLKG).
- In the focussing case there is blowup from large data by the ODE method.

@@ Line 1: / Line 1: @@
 * Scaling is <math>s_c = 1/2</math>.
-* LWP for <math>s \geq 1/2</math> by Strichartz estimates (see e.g. [[Bibliography#LbSo1995|LbSo1995]]; earlier references exist)
+* LWP for <math>s \geq 1/2</math> by Strichartz estimates (see e.g. [[LbSo1995]]; earlier references exist)
 ** When <math>s=1/2</math> the time of existence depends on the profile of the data and not just on the norm.
-** For <math>s<s_c</math> one has instantaneous blowup in the focusing case, and unbounded growth of <math>H^s</math> norms in the defocusing case [CtCoTa-p2]
+** For <math>s<s_c</math> one has instantaneous blowup in the focusing case, and unbounded growth of <math>H^s</math> norms in the defocusing case [[CtCoTa-p2]]
-* GWP for <math>s > 3/4</math> for defocussing NLW/NLKG [Fo-p]
+* GWP for <math>s > 3/4</math> for defocussing NLW/NLKG [[Fo-p]]
 ** For <math>s \geq 1</math> this follows energy conservation.
 ** One also has GWP and scattering for data with small <math>H^{1/2}</math> norm for general quintic non-linearities (and for either NLW or NLKG).
 ** In the focussing case there is blowup from large data by the ODE method.
+[[Category:Wave]]
-----   [[Category:Equations]]
+[[Category:Equations]]