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Unstable periodic orbits and attractor of the barotropic ocean model (1998)

Kazantsev, E.

Copernicus

In: Nonlinear Processes in Geophysics. 1998; 5(4): 193-208. Published 1998 Dec 31. doi: 10.5194/npg-5-193-1998.

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Publication Date: 1998-12-31

Description: A numerical method for detection of unstable periodic orbits on attractors of nonlinear models is proposed. The method requires similar techniques to data assimilation. This fact facilitates its implementation for geophysical models. This method was used to find numerically several low-period orbits for the barotropic ocean model in a square. Some numerical particularities of application of this method are discussed. Knowledge of periodic orbits of the model helps to explain some of these features like bimodality of probability density functions (PDF) of principal parameters. These PDFs have been reconstructed as weighted averages of periodic orbits with weights proportional to the period of the orbit and inversely proportional to the sum of positive Lyapunov exponents. The fraction of time spent in the vicinity of each periodic orbit has been compared with its instability characteristics. The relationship between these values shows the 93% correlation. The attractor dimension of the model has also been approximated as a weighted average of local attractor dimensions in vicinities of periodic orbits.

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Electronic ISSN: 1607-7946

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Closure of multi-fluid and kinetic equations for cyclotron-resonant interactions of solar wind ions with Alfvén waves (1998)

Marsch, E.

Copernicus

In: Nonlinear Processes in Geophysics. 1998; 5(2): 111-120. Published 1998 Jun 30. doi: 10.5194/npg-5-111-1998.

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Publication Date: 1998-06-30

Description: Based on quasilinear theory, a closure scheme for anisotropic multi-component fluid equations is developed for the wave-particle interactions of ions with electromagnetic Alfvén and ion-cyclotron waves propagating along the mean magnetic field. Acceleration and heating rates are calculated. They may be used in the multi-fluid momentum and energy equations as anomalous transport terms. The corresponding evolution equation for the average wave spectrum is established, and the effective growth/damping rate for the spectrum is calculated. Given a simple power-law spectrum, an anomalous collision frequency can be derived which depends on the slope and average intensity of the spectrum, and on the gyrofrequency and the differential motion (with respect to the wave frame) of the actual ion species considered. The wave-particle interaction terms attain simple forms resembling the ones for collisional friction and temperature anisotropy relaxation (due to pitch angle scattering) with collision rates that are proportional to the gyrofrequency but diminished substantially by the relative wave energy or the fluctuation level with respect the background field. In addition, a set of quasilinear diffusion equations is derived for the reduced (with respect to the perpendicular velocity component) velocity distribution functions (VDFs), as they occur in the wave dispersion equation and the related dielectric function for parallel propagation. These reduced VDFs allow one to describe adequately the most prominent observed features, such as an ion beam and temperature anisotropy, in association with the resonant interactions of the particles with the waves on a kinetic level, yet have the advantage of being only dependent upon the parallel velocity component.

Print ISSN: 1023-5809

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Deterministic chaos at the ocean surface: applications and interpretations (1998)

Palmer, A. J. ; Fairall, C. W. ; Kropfli, R. A.

Copernicus

In: Nonlinear Processes in Geophysics. 1998; 5(1): 13-26. Published 1998 Mar 31. doi: 10.5194/npg-5-13-1998.

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Publication Date: 1998-03-31

Description: Ocean surface, grazing-angle radar backscatter data from two separate experiments, one of which provided coincident time series of measured surface winds, were found to exhibit signatures of deterministic chaos. Evidence is presented that the lowest dimensional underlying dynamical system responsible for the radar backscatter chaos is that which governs the surface wind turbulence. Block-averaging time was found to be an important parameter for determining the degree of determinism in the data as measured by the correlation dimension, and by the performance of an artificial neural network in retrieving wind and stress from the radar returns, and in radar detection of an ocean internal wave. The correlation dimensions are lowered and the performance of the deterministic retrieval and detection algorithms are improved by averaging out the higher dimensional surface wave variability in the radar returns.

Print ISSN: 1023-5809

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Integrable unsteady motion with an application to ocean eddies (1998)

Kirwan, Jr., A. D. ; Lipphardt, Jr., B. L.

Copernicus

In: Nonlinear Processes in Geophysics. 1998; 5(3): 145-151. Published 1998 Sep 30. doi: 10.5194/npg-5-145-1998.

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Publication Date: 1998-09-30

Description: Application of the Brown-Samelson theorem, which shows that particle motion is integrable in a class of vorticity-conserving, two-dimensional incompressible flows, is extended here to a class of explicit time dependent dynamically balanced flows in multilayered systems. Particle motion for nonsteady two-dimensional flows with discontinuities in the vorticity or potential vorticity fields (modon solutions) is shown to be integrable. An example of a two-layer modon solution constrained by observations of a Gulf Stream ring system is discussed.

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Dispersive mudslide-induced tsunamis (1998)

Rubino, A. ; Pierini, S. ; Backhaus, J. O.

Copernicus

In: Nonlinear Processes in Geophysics. 1998; 5(3): 127-136. Published 1998 Sep 30. doi: 10.5194/npg-5-127-1998.

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Publication Date: 1998-09-30

Description: A nonlinear nested model for mudslide-induced tsunamis is proposed in which three phases of the life of the wave, i.e. the generation, far-field propagation and costal run-up are described by means of different mathematical models, that are coupled through appropriate matching procedures. The generation and run-up dynamics are simulated through a nonlinear shallow-water model with movable lateral boundaries: in the generation region two active layers are present, the lower one describing the slide descending on a sloping topography. For the intermediate phase, representing wave propagation far from the generation region, the hydrostatic assumption is not assumed as appropriate in general and, therefore, a nonlinear model allowing for weak phase dispersion, namely a Kadomtsev-Petviashvili equation, is used. This choice is made in order to assess the relevance of dispersive features such as solitary waves and dispersive tails. It is shown that in some realistic circumstances dispersive mudslide-induced tsunami waves can be produced over relatively short, distances. In such cases the use of a hydrostatic model throughout the whole tsunami history turns out to give erroneous results. In particular, when solitary waves are generated during the tsunami propagation in the open sea, the resulting run-up process yields peculiar wave forms leading to amplified coastal inundations with respect to a mere hydrostatic context.

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Breakdown coefficients and scaling properties of rain fields (1998)

Harris, D. ; Menabde, M. ; Seed, A. ; [et al.]

Copernicus

In: Nonlinear Processes in Geophysics. 1998; 5(2): 93-104. Published 1998 Jun 30. doi: 10.5194/npg-5-93-1998.

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Publication Date: 1998-06-30

Description: The theory of scale similarity and breakdown coefficients is applied here to intermittent rainfall data consisting of time series and spatial rain fields. The probability distributions (pdf) of the logarithm of the breakdown coefficients are the principal descriptor used. Rain fields are distinguished as being either multiscaling or multiaffine depending on whether the pdfs of breakdown coefficients are scale similar or scale dependent, respectively. Parameter estimation techniques are developed which are applicable to both multiscaling and multiaffine fields. The scale parameter (width), σ, of the pdfs of the log-breakdown coefficients is a measure of the intermittency of a field. For multiaffine fields, this scale parameter is found to increase with scale in a power-law fashion consistent with a bounded-cascade picture of rainfall modelling. The resulting power-law exponent, H, is indicative of the smoothness of the field. Some details of breakdown coefficient analysis are addressed and a theoretical link between this analysis and moment scaling analysis is also presented. Breakdown coefficient properties of cascades are also investigated in the context of parameter estimation for modelling purposes.

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Wave interactions in a shallow-water model (1998)

Wiklund, K.

Copernicus

In: Nonlinear Processes in Geophysics. 1998; 5(3): 137-144. Published 1998 Sep 30. doi: 10.5194/npg-5-137-1998.

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Publication Date: 1998-09-30

Description: By using a Hamiltonian method, non-linear three-wave interaction in a class of systems related to the shallow water model is considered and a general coupling coefficient is presented. In the special case where two inertial waves and one Rossby wave interact resonantly, it is found that even a very small shear of the background velocity can be important in the interaction process. The stability of the system is considered by using a pseudo-energy method. Some implications for the dynamics of atmospheric flows are pointed out.

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Evolution of unsteady jets in the Rayleigh-Taylor instability (1998)

Shtemler, Y. M. ; Sivashinsky, G. I. ; Cherniavski, V. M.

Copernicus

In: Nonlinear Processes in Geophysics. 1998; 5(3): 181-186. Published 1998 Sep 30. doi: 10.5194/npg-5-181-1998.

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Publication Date: 1998-09-30

Description: The paper concerns the temporal evolution of the Rayleigh-Taylor instability of two superimposed fluids in a vertical channel. At large times the instability results in the formation of a wide nearly-steady bubble of the lighter fluid rising through the channel, and thin long unsteady jets of the heavier fluid flowing down the channel walls. The jet flow appears to be tractable asymptotically by the method of matched expansions. The solution has been obtained with the planar tips of jets characterized by the jump of the interface slope.

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Advection of pollutants by internal solitary waves in oceanic and atmospheric stable stratifications (1998)

Haarlemmer, G. W. ; Zimmerman, W. B.

Copernicus

In: Nonlinear Processes in Geophysics. 1998; 5(4): 209-217. Published 1998 Dec 31. doi: 10.5194/npg-5-209-1998.

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Publication Date: 1998-12-31

Description: When a pollutant is released into the ocean or atmosphere under turbulent conditions, even a steady release is captured by large eddies resulting in localized patches of high concentration of the pollutant. If such a cloud of pollutant subsequently enters a stable stratification-either a pycnocline or thermocline-then internal waves are excited. Since large solitary internal waves have a recirculating core, pollutants may be trapped in the sclitary wave, and advected large distances through the waveguide provided by the stratification. This paper addresses the mechanisms, through computer and physical simulation, by which a localized release of a dense pollutant results in solitary waves that trap the pollutant or disperse the pollutant faster than in the absence of the waves.

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Dynamical implications of prescribing part of a coupled system: Results from a low-order model (1998)

Wittenberg, A. T. ; Anderson, J. L.

Copernicus

In: Nonlinear Processes in Geophysics. 1998; 5(3): 167-179. Published 1998 Sep 30. doi: 10.5194/npg-5-167-1998.

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Publication Date: 1998-09-30

Description: It is a common procedure in climate modelling to specify dynamical system components from an external source; a prominent example is the forcing of an atmospheric model with observed sea surface temperatures. In this paper, we examine the dynamics of such forced models using a simple prototype climate system. A particular fully coupled run of the model is designated the "true" solution, and an ensemble of perturbed initial states is generated by adding small errors to the "true" initial state. The perturbed ensemble is then integrated for the same period as the true solution, using both the fully-coupled model and a model in which the ocean is prescribed exactly from the true solution at every time step. Although the prescribed forcing is error-free, the forced-atmosphere ensemble is shown to converge to spurious solutions. Statistical tests show that neither the time-mean state nor the variability of the forced ensemble is consistent with the fully-coupled system. A stability analysis reveals the source of the inconsistency, and suggests that such behaviour may be a more general feature of models with prescribed subsystems. Possible implications for model validation and predictability are discussed.

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