Add to ORKGAn arbitrary weak spatial distribution of vorticity can be represented in terms of plane sinusoidal shear waves of all orientations and wave lengths (Fourier integral). The analysis treats the passage of a single representative weak shear wave through a plane shock and shows refraction and modification of the shear wave with simultaneous generation of an acoustically intense sound wave. Applications to turbulence and to noise in supersonic wind tunnels are indicated
The presence of sound waves in one or the other of the fluid regions on either side of a shock wave ...
The scattering of acoustic waves by a moving vortex is studied in two dimensions to bring further in...
A collimated ’’monochromatic’’ acoustic wave (sinusoidal wave of 3–90 kHz) was directed across a two...
An arbitrary weak spatial distribution of vorticity can be represented in terms of plane sinusoidal ...
Analysis is made of the flow field produced by oblique impingement of weak plane disturbances of arb...
The nonlinear aerodynamic sound generation by turbulence has been long analyzed since the foundation...
The nonlinear aerodynamic sound generation by turbulence has been long analyzed since the foundation...
A comparative analysis of linear and nonlinear aerodynamic sound generation in two dimensional (2D) ...
A comparative analysis of linear and nonlinear aerodynamic sound generation in two dimensional (2D) ...
Computations are presented for the first two types of incident wave, over the range of incidence ang...
The aerodynamic sound source of a turbulent flow with a high Reynolds' number is composed of two typ...
The aerodynamic sound source of a turbulent flow with a high Reynolds' number is composed of two typ...
In a number of fluid machinery applications, a simplified plane wave analysis of the problem of soun...
A theoretical model is constructed to predict the far-field sound generated by high-frequency gust-a...
A linear mechanism for the emergence of acoustic waves from aperiodic vorticity disturbances is pres...
The presence of sound waves in one or the other of the fluid regions on either side of a shock wave ...
The scattering of acoustic waves by a moving vortex is studied in two dimensions to bring further in...
A collimated ’’monochromatic’’ acoustic wave (sinusoidal wave of 3–90 kHz) was directed across a two...
An arbitrary weak spatial distribution of vorticity can be represented in terms of plane sinusoidal ...
Analysis is made of the flow field produced by oblique impingement of weak plane disturbances of arb...
The nonlinear aerodynamic sound generation by turbulence has been long analyzed since the foundation...
The nonlinear aerodynamic sound generation by turbulence has been long analyzed since the foundation...
A comparative analysis of linear and nonlinear aerodynamic sound generation in two dimensional (2D) ...
A comparative analysis of linear and nonlinear aerodynamic sound generation in two dimensional (2D) ...
Computations are presented for the first two types of incident wave, over the range of incidence ang...
The aerodynamic sound source of a turbulent flow with a high Reynolds' number is composed of two typ...
The aerodynamic sound source of a turbulent flow with a high Reynolds' number is composed of two typ...
In a number of fluid machinery applications, a simplified plane wave analysis of the problem of soun...
A theoretical model is constructed to predict the far-field sound generated by high-frequency gust-a...
A linear mechanism for the emergence of acoustic waves from aperiodic vorticity disturbances is pres...
The presence of sound waves in one or the other of the fluid regions on either side of a shock wave ...
The scattering of acoustic waves by a moving vortex is studied in two dimensions to bring further in...
A collimated ’’monochromatic’’ acoustic wave (sinusoidal wave of 3–90 kHz) was directed across a two...