论文信息 - Experimental verification of the calculated diffraction field generated by inhomogeneous waves obliquely incident on a periodically rough liquid–solid boundary

Experimental verification of the calculated diffraction field generated by inhomogeneous waves obliquely incident on a periodically rough liquid–solid boundary

In this paper, the diffraction of an inhomogeneous plane bulk wave at a corrugated liquid–solid boundary is considered. The classical diffraction law of Bragg for homogeneous plane waves is generalized for incident inhomogeneous bulk waves, and the obtained results are verified experimentally. The solution of the generalized diffraction law is not unique. Depending on the chosen solution, the reflection (and transmission) coefficients of the diffracted inhomogeneous waves have a different modulus and phase. An illustration is given for the zeroth-order reflection and compared with experimental results. A reflection coefficient greater than unity is observed. This effect agrees with the inhomogeneous wave theory.

[1] O. Poncelet,et al. Lamb waves generated by complex harmonic inhomogeneous plane waves , 1997 .

[2] J. T. Fokkema. Reflection and transmission of acoustic waves by the periodic interface between a solid and a fluid , 1981 .

[3] J. L Uretsky,et al. The scattering of plane waves from periodic surfaces , 1965 .

[4] K. V. D. Abeele,et al. On the influence of frequency and width of an ultrasonic bounded beam in the investigation of materials: Study in terms of heterogeneous plane waves , 1993 .

[5] Laszlo Adler,et al. Diffraction of ultrasonic waves from periodically rough liquid–solid surface , 1983 .

[6] O. Leroy,et al. Reflection and transmission of bounded sound beams on half‐spaces and through plates , 1982 .

[7] R. F. Millar. The Rayleigh hypothesis and a related least‐squares solution to scattering problems for periodic surfaces and other scatterers , 1973 .

[8] J. Achenbach,et al. Reflection from a boundary with periodic roughness: Theory and experiment , 1983 .

[9] O. Leroy,et al. Complex harmonic wave scattering as the framework for investigation of bounded beam reflection and transmission at plane interfaces and its importance in the study of vibrational modes , 1993 .