Nonlinear Schrodinger-Airy system: Difference between revisions

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'''R''' is a combination of the [[nls-3 on R|cubic NLS equation]], the [[dnls-3 on R|derivative cubic NLS equation]], [[modified Korteweg-de Vries on R|complex mKdV]], and a cubic nonlinear [[Airy equation]].  This equation is a general model for propogation of pulses in an optical fiber [[references.html#Kod1985 Kod1985]], [[references.html#HasKod1987 HasKod1987]]
'''R''' is a combination of the [[nls-3 on R|cubic NLS equation]], the [[dnls-3 on R|derivative cubic NLS equation]], [[modified Korteweg-de Vries on R|complex mKdV]], and a cubic nonlinear [[Airy equation]].  This equation is a general model for propogation of pulses in an optical fiber [[references.html#Kod1985 Kod1985]], [[references.html#HasKod1987 HasKod1987]]


When <math>c=\delta=\epsilon = 0</math>, scaling is <math>s=-1</math>.When <math>c=\gamma=0</math>, scaling is <math>–1/2</math>.
When <math>c=\delta=\epsilon = 0</math>, scaling is <math>s=-1</math>.When <math>c=\gamma=0</math>, scaling is –1/2.


LWP is known when <math>s \geq 1/4</math>. [[references.html#St1997d St1997d]]
LWP is known when <math>s \geq 1/4</math>. [[references.html#St1997d St1997d]]

Revision as of 15:24, 28 July 2006

The nonlinear Schrodinger-Airy system

R is a combination of the cubic NLS equation, the derivative cubic NLS equation, complex mKdV, and a cubic nonlinear Airy equation. This equation is a general model for propogation of pulses in an optical fiber references.html#Kod1985 Kod1985, references.html#HasKod1987 HasKod1987

When , scaling is .When , scaling is –1/2.

LWP is known when . references.html#St1997d St1997d

For this is in references.html#Lau1997 Lau1997, references.html#Lau2001 Lau2001

The result is also known when is a time-dependent function [Cv2002], [CvLi2003]

For and or non-zero, the solution map is not .

When delta = epsilon = 0 LWP is known for s > -1/4 references.html#Cv2004 Cv2004

For the solution map is not C^3 [CvLi-p]