One-dimensional numerical simulations of random sound impulses

Murawski, K.; Mędrek, Marek

doi:10.1088/0959-7174/13/4/307

Waves in Random Media

2003

DOI: 10.1088/0959-7174/13/4/307

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One-dimensional numerical simulations of random sound impulses

K. Murawski

Marek Mędrek²

Abstract: We perform one-dimensional numerical simulations of small-amplitude acoustic pulses in space-and time-dependent random mass density and timedependent velocity fields. Numerical results reveal that: (a) random fields affect the speeds, amplitudes and, consequently, shapes of sound pulses; (b) for weak random fields and short propagation times the numerical data converge with the analytical results of the mean field theory which says that a space-dependent (time-dependent) random field leads to wave attenuation … Show more

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Cited by 2 publications

References 14 publications

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Stochastically excited waves in a 1D random medium – the mean field and power spectrum

Skartlien

2005

Waves in Random and Complex Media

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Sciilar wave propagation is examined when both the wave source iind the propagation speed are random. Resuits arc derived tor the nieiiii Held and the power spectrum using tiic scLond-order Bom approximatinn. The results depend on whether the source .S(.v. /) and the propagation speed t(.i, f) are correlated or mit. When they are uncorrelated. the mean held is zero. When they are correlated, the mean ticid is non-zero only when the source is non-station;iry. The power spccrrum is incohcreni to leading order. There is a Iranslcr of energy from lower to higher Ireqiiencies awing to wave scattering. The corresponding frequency upshift of the power prolile in the ik.o)) domain is mainly caused by the cross power between the direct and the twice scattered held, which represents a second-order incoherent power contribution. The results are confirmed using a numerical solution of ihe wave ei;iia!ion where Ihe scattered held is e.xpanded to lifth order.

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Stochastically excited waves in a 1D random medium – the mean field and power spectrum

Skartlien

2005

Waves in Random and Complex Media

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Propagating Alfvén waves in open structures with random structuring

Pascoe

Moortel

Pagano

et al. 2022

Monthly Notices of the Royal Astronomical Society

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We consider the behaviour of Alfvén waves propagating in a medium with random density perturbations. The imposed density perturbations have a broadband spectrum and their characteristic spatial scale may be defined according to the peak in the spectrum. The interaction of the boundary driven Alfvén waves with the medium generates reflections most efficiently when their wavelength is comparable to the spatial scale of the density perturbations. For our monotonic driver, this leads to the generation of quasi-periodic oscillations. The periods of oscillation of the propagating Alfvén waves is no longer only associated with the driver. Additional periodicities may be associated with one or more characteristic spatial scales in the density profile, or with beating between other spectral components. Multiple wave reflections cause oscillatory power to be retained at low altitudes, increasing opportunities to contribute to heating at those locations.

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One-dimensional numerical simulations of random sound impulses

Cited by 2 publications

References 14 publications

Stochastically excited waves in a 1D random medium – the mean field and power spectrum

Stochastically excited waves in a 1D random medium – the mean field and power spectrum

Propagating Alfvén waves in open structures with random structuring

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