Scroll wave instability controlled by external fluctuations

A kinetic theory for nonlinear processes involving Langmuir waves, developed in an earlier paper, is extended through consideration of three aspects of the temporal evolution, (i) Following Falk & Tsytovich (1975). the dynamic equation for the rate of change of one amplitude at t is expressed as an integral over T of the product of two amplitudes at t – T and a kernel functionf(T); two generalizations of Falk & Tsytovich's form (f(T) ∝ T) that satisfy the requirement f(∞) = 0 are identified, (ii) It is shown that the low-frequency or beat disturbance may be described in terms of fluctuations in the electron number density, and that its time evolution involves an operator that is essentially the inverse of f(t). (iii) The transition from oscillatory evolution in the reactive or ‘coherent-wave’ version of the three-wave instability to the secular evolution of the resistive or ‘random-phase’ version is discussed qualitatively.

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Long-wave instability in thin heated films doped with soluble surfactants

International Journal of Non-Linear Mechanics ◽

10.1016/j.ijnonlinmec.2021.103784 ◽

2021 ◽

pp. 103784

Author(s):

S.J.D. D’Alessio ◽

J.P. Pascal

Keyword(s):

Wave Instability ◽

Long Wave ◽

Soluble Surfactants

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Instabilities of coupled density fronts and their nonlinear evolution in the two-layer rotating shallow-water model: influence of the lower layer and of the topography

Journal of Fluid Mechanics ◽

10.1017/jfm.2012.556 ◽

2013 ◽

Vol 716 ◽

pp. 528-565 ◽

Cited By ~ 6

Author(s):

Bruno Ribstein ◽

Vladimir Zeitlin

Keyword(s):

Shallow Water ◽

Nonlinear Evolution ◽

Lower Layer ◽

Phase Locking ◽

Water Model ◽

Shallow Water Model ◽

Wave Instability ◽

Rotating Shallow Water ◽

New Generation ◽

Rotating Shallow Water Equations

AbstractWe undertake a detailed analysis of linear stability of geostrophically balanced double density fronts in the framework of the two-layer rotating shallow-water model on the $f$-plane with topography, the latter being represented by an escarpment beneath the fronts. We use the pseudospectral collocation method to identify and quantify different kinds of instabilities resulting from phase locking and resonances of frontal, Rossby, Poincaré and topographic waves. A swap in the leading long-wave instability from the classical barotropic form, resulting from the resonance of two frontal waves, to a baroclinic form, resulting from the resonance of Rossby and frontal waves, takes place with decreasing depth of the lower layer. Nonlinear development and saturation of these instabilities, and of an instability of topographic origin, resulting from the resonance of frontal and topographic waves, are studied and compared with the help of a new-generation well-balanced finite-volume code for multilayer rotating shallow-water equations. The results of the saturation for different instabilities are shown to produce very different secondary coherent structures. The influence of the topography on these processes is highlighted.

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Bilayer honeycomb lattice with ultracold atoms: Multiple Fermi surfaces and incommensurate spin density wave instability

Physical Review B ◽

10.1103/physrevb.94.235107 ◽

2016 ◽

Vol 94 (23) ◽

Cited By ~ 2

Author(s):

Santanu Dey ◽

Rajdeep Sensarma

Keyword(s):

Spin Density ◽

Ultracold Atoms ◽

Density Wave ◽

Spin Density Wave ◽

Honeycomb Lattice ◽

Wave Instability ◽

Fermi Surfaces

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Circulation and Temperature Structure in Large Marine Enclosures

Journal of the Fisheries Research Board of Canada ◽

10.1139/f77-166 ◽

1977 ◽

Vol 34 (8) ◽

pp. 1095-1104 ◽

Cited By ~ 29

Author(s):

J. H. Steele ◽

D. M. Farmer ◽

E. W. Henderson

Keyword(s):

Vertical Mixing ◽

Temperature Structure ◽

Temperature Profiles ◽

Turbulent Diffusivity ◽

Mixing Energy ◽

Physical Measurements ◽

Average Coefficient ◽

Different Depths ◽

External Fluctuations ◽

Shed Light

Certain physical measurements intended to shed light on the circulation in large plastic enclosures (60–2000 m3) induced by the changing environment in which they are moored are described. Layers of dye were generally seen to diffuse vertically although some important advection effects were also observed. Estimates of an average coefficient of turbulent diffusivity yielded values in the range.05–.26 cm2∙s−1.Measurements taken with recording thermistor chains both inside and outside the enclosures show strong damping of external fluctuations with periods significantly less than 1 day. Various possible sources of mixing energy are considered and it is concluded that thermal forcing through the wall may be significant and could account for the observed range of coefficients.The significance of the observed mixing and circulation to the ecology of the enclosures is discussed. Of particular importance is the vertical mixing of nutrients that influences phytoplankton sinking rates and thus plays a crucial role in determining variations in algal concentration at different depths. Key words: mixing, enclosures, controlled ecosystem pollution experiment, circulation, temperature profiles

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