Worm Structure in Modified Swift-Hohenberg Equation for
  Electroconvection

E. Bodenschatz; E. Moses; H. R. Brand; H. Riecke; H. S. Greenside; J. B. Swift; M. Bestehorn; M. Bestehorn; M. C. Cross; M. Dennin; M. Dennin; M. Treiber; O. Thual; P. Kolodner; P. Kolodner; R. J. Deissler; T. Ohta; V. Steinberg; Yuhai Tu

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Worm Structure in Modified Swift-Hohenberg Equation for Electroconvection

Authors: E. Bodenschatz
E. Moses
H. R. Brand
H. Riecke
H. S. Greenside
J. B. Swift
M. Bestehorn
M. Bestehorn
M. C. Cross
M. Dennin
M. Dennin
M. Treiber
O. Thual
P. Kolodner
P. Kolodner
R. J. Deissler
T. Ohta
V. Steinberg
Yuhai Tu
Publication date: 2 January 1997
Publisher: 'American Physical Society (APS)'
Doi

Abstract

A theoretical model for studying pattern formation in electroconvection is proposed in the form of a modified Swift-Hohenberg equation. A localized state is found in two dimension, in agreement with the experimentally observed ``worm" state. The corresponding one dimensional model is also studied, and a novel stationary localized state due to nonadiabatic effect is found. The existence of the 1D localized state is shown to be responsible for the formation of the two dimensional ``worm" state in our model

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