Superlattice patterns in surface waves

Kudrolli, Arshad; Pier, Benoı̂t; Gollub, Jerry P.

doi:10.1016/s0167-2789(98)00115-8

Cited by 175 publications

(232 citation statements)

References 16 publications

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“…The observed superlattice pattern is similar but different from the ones previously observed by others [3][4][5][6]. In particular, the snapshot of superlattice [ Fig.…”

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confidence: 77%

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Superlattice, Rhombus, Square, and Hexagonal Standing Waves in Magnetically Driven Ferrofluid Surface

Park

Lee

et al. 2000

Phys. Rev. Lett.

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Standing wave patterns that arise on the surface of ferrofluids by (single frequency) parametric forcing with an ac magnetic field are investigated experimentally. Depending on the frequency and amplitude of the forcing, the system exhibits various patterns including a superlattice and subharmonic rhombuses as well as conventional harmonic hexagons and subharmonic squares. The superlattice arises in a bicritical situation where harmonic and subharmonic modes collide. The rhombic pattern arises due to the non-monotonic dispersion relation of a ferrofluid. 47.20.k; 47.54.+r; 05.70.Fh

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“…The observed superlattice pattern is similar but different from the ones previously observed by others [3][4][5][6]. In particular, the snapshot of superlattice [ Fig.…”

contrasting

confidence: 77%

“…In subsequent experiments on a similar experimental setup, Kudrolli et al observed two different types of superlattice pattern ("type-I" and "type-II") in addition to the 12-fold symmetric quasicrystalline pattern [3]. More recently, Arbell and Fineberg report yet another kinds of superlattice pattern ("SSS" and "2MS") [4].…”

mentioning

confidence: 93%

Superlattice, Rhombus, Square, and Hexagonal Standing Waves in Magnetically Driven Ferrofluid Surface

Park

Lee

et al. 2000

Phys. Rev. Lett.

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“…The resulting pattern is composed of two discrete but interacting sublattices and thus presents a spatial order on two different length scales. Such dynamic superlattices have also been obtained in nonlinear optical devices [Pampaloni et al, 1997;Musslimani & Pismen, 2000] and in two-frequencies Faraday experiments [Kudrolli et al, 1998;Arbell & Fineberg, 1998]. Finally, for specific relations between the angles of the triads of wave vectors of active modes, quasiperiodic patterns may also be generated.…”

Section: Turing Patternsmentioning

confidence: 84%

Diffusive Instabilities and Chemical Reactions

Borckmans

Dewel

Wit

et al. 2002

Int. J. Bifurcation Chaos

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Diffusive instabilities provide the engine for an ever increasing number of dissipative structures. In this class autocatalytic chemical systems are prone to generate temporal and spatial self-organization phenomena. The development of open spatial reactors and the subsequent discovery in 1989 of the stationary reaction-diffusion patterns predicted by Turing [1952] have triggered a large amount of research. This review aims at a comparison between theoretical predictions and experimental results obtained with various type of reactors in use. The differences arising from the use of reactions exhibiting either bistability of homogeneous steady states or a single one in a CSTR are emphasized.

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“…In large domains recent work has focused on two-frequency forcing [1], in which the two frequency components select distinct wavenumbers. These experiments, generally carried out in quite viscous liquids, have revealed various superlattice patterns, as well as nonperiodic states resembling quasipatterns [12,27,28,1]. In these experiments, the frequencies used are in (low order) resonance, so that the forcing acceleration remains periodic in time, with the frequency ratio, their relative phase, and their relative contribution to the forcing providing parameters to be tuned in the experiment.…”

Section: Introductionmentioning

confidence: 99%

Dynamics of nearly inviscid Faraday waves in almost circular containers

Higuera

Knobloch

Vega

2005

Physica D: Nonlinear Phenomena

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Parametrically driven surface gravity-capillary waves in an elliptically distorted circular cylinder are studied. In the nearly inviscid regime, the waves couple to a streaming flow driven in oscillatory viscous boundary layers. In a cylindrical container, the streaming flow couples to the spatial phase of the waves, but in a distorted cylinder, it couples to their amplitudes as well. This coupling may destabilize pure standing oscillations, and lead to complex time-dependent dynamics at onset. Among the new dynamical behavior that results are relaxation oscillations involving abrupt transitions between standing and quasiperiodic oscillations, and exhibiting 'canards'.

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Superlattice patterns in surface waves

Cited by 175 publications

References 16 publications

Superlattice, Rhombus, Square, and Hexagonal Standing Waves in Magnetically Driven Ferrofluid Surface

Superlattice, Rhombus, Square, and Hexagonal Standing Waves in Magnetically Driven Ferrofluid Surface

Diffusive Instabilities and Chemical Reactions

Dynamics of nearly inviscid Faraday waves in almost circular containers

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