To Snake or Not to Snake in the Planar Swift–Hohenberg Equation | Zendy

Daniele Avitabile | Zendy; David J. B. Lloyd | Zendy; John Burke | Zendy; Edgar Knobloch | Zendy; Björn Sandstede | Zendy

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To Snake or Not to Snake in the Planar Swift–Hohenberg Equation

Author(s) -

Daniele Avitabile,

David J. B. Lloyd,

John Burke,

Edgar Knobloch,

Björn Sandstede

Publication year - 2010

Publication title -

siam journal on applied dynamical systems

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.218

H-Index - 61

ISSN - 1536-0040

DOI - 10.1137/100782747

Subject(s) - bifurcation , saddle node bifurcation , planar , plane (geometry) , mathematics , cylinder , mathematical analysis , saddle , geometry , classical mechanics , physics , nonlinear system , computer science , mathematical optimization , computer graphics (images) , quantum mechanics

We investigate the bifurcation structure of stationary localized patterns of the two dimensional Swift–Hohenberg equation on an infinitely long cylinder and on the plane. On cylinders, we find localized roll, square, and stripe patches that exhibit snaking and nonsnaking behavior on the same bifurcation branch. Some of these patterns snake between four saddle-node limits; in this case, recent analytical results predict the existence of a rich bifurcation structure to asymmetric solutions, and we trace out these branches and the PDE spectra along these branches. On the plane, we study the bifurcation structure of fully localized roll structures, which are often referred to as worms. In all the above cases, we use geometric ideas and spatial-dynamics techniques to explain the phenomena that we encounter

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