The effect of space- and time-dependent random mass density, velocity, and pressure fields on frequencies and amplitudes of acoustic waves is considered by means of the analytical perturbative method. The analytical results, which are valid for weak fluctuations and long wavelength sound waves, reveal frequency and amplitude alteration, the effect of which depends on the type of random field. In particular, the effect of a random mass density field is to increase wave frequencies. Space-dependent random velocity and pressure fields reduce wave frequencies. While space-dependent random fields attenuate wave amplitudes, their time-dependent counterparts lead to wave amplification. In another example, sound waves that are trapped in the vertic...
Abstract. The influence of a space-dependent random mass density eld on the development of solar p{m...
In turbulent media, both sound wave sources and the speed of sound can be stochastic variables. By m...
The influence of space- and time-dependent random mass density field, associated with granules, on ...
We investigate the effect of a space-dependent random mass density field on small amplitude acoustic...
Abstract: Numerical simulations of the effect of random mass density field on frequencies of sound w...
The effect of a time-dependent random mass density field on the frequencies and amplitudes of solar ...
The eect of space- and time-dependent random mass density, veloc-ity, and pressure elds on frequenci...
Numerical simulations of the effect of random mass density field on frequencies of sound waves are c...
We perform one-dimensional numerical simulations of small-amplitude acoustic pulses in space- and ti...
The influence of a space-dependent random mass density field on the development of solar p-modes is ...
We examine by analytical and numerical means sound waves which propagate in a space- and time-depend...
We perform one-dimensional numerical simulations of both driven and impulsively generated sound wave...
Abstract: We examine by analytical and numerical means sound waves which propagate in a space-and ti...
Abstract: In turbulent media, both sound wave sources and the speed of sound can be stochastic varia...
Propagation in a deterministic medium is now well known and there exists several methods to investig...
Abstract. The influence of a space-dependent random mass density eld on the development of solar p{m...
In turbulent media, both sound wave sources and the speed of sound can be stochastic variables. By m...
The influence of space- and time-dependent random mass density field, associated with granules, on ...
We investigate the effect of a space-dependent random mass density field on small amplitude acoustic...
Abstract: Numerical simulations of the effect of random mass density field on frequencies of sound w...
The effect of a time-dependent random mass density field on the frequencies and amplitudes of solar ...
The eect of space- and time-dependent random mass density, veloc-ity, and pressure elds on frequenci...
Numerical simulations of the effect of random mass density field on frequencies of sound waves are c...
We perform one-dimensional numerical simulations of small-amplitude acoustic pulses in space- and ti...
The influence of a space-dependent random mass density field on the development of solar p-modes is ...
We examine by analytical and numerical means sound waves which propagate in a space- and time-depend...
We perform one-dimensional numerical simulations of both driven and impulsively generated sound wave...
Abstract: We examine by analytical and numerical means sound waves which propagate in a space-and ti...
Abstract: In turbulent media, both sound wave sources and the speed of sound can be stochastic varia...
Propagation in a deterministic medium is now well known and there exists several methods to investig...
Abstract. The influence of a space-dependent random mass density eld on the development of solar p{m...
In turbulent media, both sound wave sources and the speed of sound can be stochastic variables. By m...
The influence of space- and time-dependent random mass density field, associated with granules, on ...