David Raitt scite author profile

David Raitt

2Publications

47Citation Statements Received

178Citation Statements Given

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163

Affiliations

Florida State University, Northwestern University, Applied Mathematics (United States)

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Domain structures in fourth-order phase and Ginzburg-Landau equations

Raitt

Riecke

1995

Physica D: Nonlinear Phenomena

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In pattern-forming systems, competition between patterns with different wave numbers can lead to domain structures, which consist of regions with differing wave numbers separated by domain walls. For domain structures well above threshold we employ the appropriate phase equation and obtain detailed qualitative agreement with recent experiments. Close to threshold a fourth-order Ginzburg-Landau equation is used which describes a steady bifurcation in systems with two competing critical wave numbers. The existence and stability regime of domain structures is found to be very intricate due to interactions with other modes. In contrast to the phase equation the Ginzburg-Landau equation allows a spatially oscillatory interaction of the domain walls. Thus, close to threshold domain structures need not undergo the coarsening dynamics found in the phase equation far above threshold, and can be stable even without phase conservation. We study their regime of stability as a function of their (quantized) length. Domain structures are related to zig-zags in two-dimensional systems. The latter are therefore expected to be stable only when quenched far enough beyond the zigzag instability.

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Parametric forcing of waves with a nonmonotonic dispersion relation: Domain structures in ferrofluids

Raitt

Riecke

1997

Phys. Rev. E

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Surface waves on ferrofluids exposed to a dc-magnetic field exhibit a nonmonotonic dispersion relation. The effect of a parametric driving on such waves is studied within suitable coupled Ginzburg-Landau equations. Due to the non-monotonicity the neutral curve for the excitation of standing waves can have up to three minima. The stability of the waves with respect to long-wave perturbations is determined via a phase-diffusion equation. It shows that the band of stable wave numbers can split up into two or three sub-bands. The resulting competition between the wave numbers corresponding to the respective sub-bands leads quite naturally to patterns consisting of multiple domains of standing waves which differ in their wave number. The coarsening dynamics of such domain structures is addressed.October 28, 2018 05.45.+b, 05.90.+m, 47.20. Tg

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David Raitt

Domain structures in fourth-order phase and Ginzburg-Landau equations

Parametric forcing of waves with a nonmonotonic dispersion relation: Domain structures in ferrofluids

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