Phase Slips and the Eckhaus Instability

C.E. Wayne (Dept. of Mathematics; Gen\`eve; J.-P. Eckmann (D\'ept. de Physique Th\'eorique; Orsay); Penn. State University; Section de Math\'ematiques; State College PA; Switzerland); Th. Gallay (D\'ept de Math\'ematiques; Universit\'e de Gen\`eve

arxiv: patt-sol/9503001 · v1 · submitted 1995-03-08 · patt-sol · nlin.PS

Phase Slips and the Eckhaus Instability

J.-P. Eckmann (D\'ept. de Physique Th\'eorique , Section de Math\'ematiques , Universit\'e de Gen\`eve , Gen\`eve , Switzerland) , Th. Gallay (D\'ept de Math\'ematiques , Universit\'e de Paris-Sud , Orsay)

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C.E. Wayne (Dept. of Mathematics Penn. State University State College PA USA)

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classification patt-sol nlin.PS

keywords eckhausequationphaseslipsamplitudeginzburg-landaugloballocal

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We consider the Ginzburg-Landau equation, $ \partial_t u= \partial_x^2 u + u - u|u|^2 $, with complex amplitude $u(x,t)$. We first analyze the phenomenon of phase slips as a consequence of the {\it local} shape of $u$. We next prove a {\it global} theorem about evolution from an Eckhaus unstable state, all the way to the limiting stable finite state, for periodic perturbations of Eckhaus unstable periodic initial data. Equipped with these results, we proceed to prove the corresponding phenomena for the fourth order Swift-Hohenberg equation, of which the Ginzburg-Landau equation is the amplitude approximation. This sheds light on how one should deal with local and global aspects of phase slips for this and many other similar systems.

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Phase Slips and the Eckhaus Instability

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