Zakharov-Schulman system: Difference between revisions

Latest revision as of 21:50, 5 August 2006

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The Zakharov-Schulman system is described by the equations

iu_{t}+L_{1}u=\phi u

L_{2}\phi =L_{3}(|u|^{2})

where L_1, L_2, L_3 are various constant coefficient differential operators; these describe the interactions of small amplitude, high frequency waves with acoustic waves ZkShl1980. Using energy methods and gauge transformations, local existence for smooth data was established in KnPoVe1995b; see also GhSau1992.

The Davey-Stewartson system can be viewed as a special case of this system.

@@ Line 1: / Line 1: @@
+{{stub}}
 The [[Zakharov-Schulman system]] is described by the equations
-i u_t + L_1 u = phi u
+<center><math>i u_t + L_1 u = \phi u</math></center>
+<center><math>L_2 \phi = L_3( |u|^2 )</math></center>
-L_2 phi = L_3( |u|^2 )
+where L_1, L_2, L_3 are various constant coefficient differential operators; these describe the interactions of small amplitude, high frequency waves with acoustic waves [[ZkShl1980]].  Using energy methods and [[gauge transformations]], local existence for smooth data was established in [[KnPoVe1995b]]; see also [[GhSau1992]].
-where L_1, L_2, L_3 are various constant coefficient differneital operators; these describe the interactions of small amplitude, high frequency waves with acoustic waves [ZkShl1980].  Using energy methods and gauge transformations, local existence for smooth data was established in [KnPoVe1995b]; see also [GhSau1992].
+The [[Davey-Stewartson system]] can be viewed as a special case of this system.
 [[Category:Equations]]

Zakharov-Schulman system: Difference between revisions

Latest revision as of 21:50, 5 August 2006

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