Nonlinear Sciences – Pattern Formation and Solitons
Scientific paper
1998-05-19
Nonlinear Sciences
Pattern Formation and Solitons
improved discussion of cross-over to case of large group velocity. additional figure for origin of domain chaos (16 pages RevT
Scientific paper
We determine the modulational stability of standing waves with small group velocity in quasi-onedimensional systems slightly above the threshold of a supercritical Hopf bifurcation. The stability limits are given by two different long-wavelength destabilisation mechanisms and generically also a short-wavelength destabilisation. The Eckhaus parabola is shifted off-center and can be convex from below or above. For nonzero group velocity the Newell criterion, which near the cross-over from standing to traveling waves becomes a rather weak condition, does not determine the destabilisation of all standing waves in one dimension. The cross-over to the non-local equations that are asymptotically valid near threshold is discussed in detail. Close to the transition from standing to traveling waves complex dynamics can arise due to the competition of counter-propagating waves and the wavenumber selection by sources. Our results yield necessary conditions for the stability of traveling rectangles in quasi-twodimensional systems with axial anisotropy and form a starting point for understanding the spatio-temporal chaos of traveling oblique rolls observed in electroconvection of nematic liquid crystals.
Kramer Lorenz
Riecke Hermann
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