Strichartz estimates: Difference between revisions

Revision as of 10:22, 17 January 2007

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Strichartz estimates are spacetime estimates on homogeneous and inhomogeneous linear dispersive and wave equations. They are particularly useful for solving semilinear perturbations of such equations, in which no derivatives are present in the nonlinearity.

Strichartz estimates can be derived abstractly as a consequence of a dispersive inequality and an energy inequality.

Linear Strichartz estimate

Let ${\dot {H}}^{\alpha }({\mathbb {R}}^{n})$ denote the homogeneous Sobolev space with norm

$\left\|u\right\|_{{\dot {H}}^{\alpha }({\mathbb {R}}^{n})}=\left\|(-\Delta ^{\alpha /2})u\right\|_{L^{2}({\mathbb {R}}^{n})}$

If $u$ solves the linear wave equation

$\Box u=F(t,x)$

with data

$u(0,\cdot )=f\qquad \partial _{t}u(0,\cdot )=g$

then the Strichartz estimates states that

\left\|u\right\|_{L^{4}({{\mathbb {R}}^{3+1}}_{+})}\leq C\left(\left\|f\right\|_{{{\dot {H}}^{1/2}}({\mathbb {R}}^{3})}+\left\|g\right\|_{{{\dot {H}}^{-1/2}}({\mathbb {R}}^{3})}+\int \limits _{0}^{\infty }\left\|F\right\|_{L^{2}({\mathbb {R}}^{3})}\right)

@@ Line 1: / Line 1: @@
 {{stub}}
-Strichartz estimates are spacetime estimates on homogeneous and inhomogeneous linear dispersive and wave equations.  They are particularly useful for solving semilinear perturbations of such equations, in which no derivatives are present in the nonlinearity.
+Strichartz estimates are spacetime estimates on homogeneous and
+inhomogeneous linear dispersive and wave equations.  They are
+particularly useful for solving semilinear perturbations of such
+equations, in which no derivatives are present in the nonlinearity.
-Strichartz estimates can be derived abstractly as a consequence of a dispersive inequality and an energy inequality.
+Strichartz estimates can be derived abstractly as a consequence of a
+dispersive inequality and an energy inequality.
-[[Category:Estimates]] [[Category:Schrodinger]]  [[Category:Wave]]  [[Category:Airy]]
+==Linear Strichartz estimate ==
+Let <math> \dot H^{\alpha}(\Bbb R^n) </math> denote the homogeneous
+Sobolev space with norm
+<center>
+<math>
+\left\| u \right\|_{\dot H^{\alpha}(\Bbb R^n)}
+= \left\|(-\Delta^{\alpha/2}) u \right\|_{L^2(\Bbb R^n)}
+</math>
+</center>
+If <math> u </math> solves the ''linear wave equation''
+<center>
+<math>
+\Box u = F(t,x)
+</math>
+</center>
+with data
+<center>
+<math>
+u(0,\cdot)=f \qquad \partial_t u (0,\cdot )=g
+</math>
+</center>
+then the Strichartz estimates states that
+<center> <math>
+\left\| u \right\|_{L^{4}({{\Bbb R}^{3+1}}_+)}
+\leq C \left(
+\left\| f \right\|_{{\dot H^{1/2}}(\Bbb R^3)}
++ \left\| g \right\|_{{\dot H^{-1/2}}(\Bbb R^3)}
++ \int\limits_0^{\infty} \left\| F \right\|_{L^2(\Bbb R^{3})}
+\right)
+</math> </center>
+[[Category:Estimates]] [[Category:Schrodinger]]  [[Category:Wave]]
+[[Category:Airy]]

Strichartz estimates: Difference between revisions

Revision as of 10:22, 17 January 2007

Linear Strichartz estimate

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