Sound diffraction by an underwater ridge with finite impedance

Chase, Yun S.

08 1900

No description available.

Sound-waves Diffraction

Underwater acoustics

Comparison of layering effects in the propagation of transient planar stress waves

Podo, Smardie D.

08 1900

No description available.

Wave-motion, Theory of

Sound-waves

Phonon scattering from two-level systems in one dimension

Berard, Marcel J.

January 1983

No description available.

Phonons -- Scattering.

Sound-waves -- Scattering.

Elastic surface waves guided by a rectangular overlay.

Tu, Cheng Chun.

January 1972

No description available.

Elastic waves

Sound-waves

Microwaves

Active control of sound radiation due to subsonic wave scattering from discontinuities on thin elastic beams /

Guigou, Catherine R. J.,

January 1992

Thesis (Ph. D.)--Virginia Polytechnic Institute and State University, 1992. / Vita. Abstract. Includes bibliographical references (leaves 225-231). Also available via the Internet.

Sound-waves Scattering (Physics) Girders

Acoustic mode coherence in the Arctic Ocean

Polcari, John J.

January 1900

Thesis (D.S.)--Massachusetts Institute of Technology and Woods Hole Oceanographic Institution, 1986. / Includes bibliographical references (p. 291-296).

Underwater acoustics Sound Sound-waves

Application of the Multi-Modal Integral Method (MMIM) to sound wave scattering in an acoustic waveguide

Zinoviev, Alexei.

January 1999

Bibliography: leaves 153-156. Devoted to the problem of sound wave scattering by elastic cylindrical objects in a plain acoustic waveguide. The Multi-Modal Integral Method is proposed. It is shown that the implementation of the method requires few computer resources for good accuracy of the solution.

Acoustic pulse diffraction by curved and planar structures with edges

Zhang, Qin

January 1990

Efficient and accurate solutions of acoustic wave diffraction by a rigid step discontinuity and a curved half-plane are derived by the uniform geometrical theory of diffraction. These solutions can be used in seismic data processing to evaluate and, eventually, to improve the existing data processing procedures. They can also find applications in electromagnetics, microwave antenna design, acoustic design and sound engineering. The rigid step discontinuity solution given in this thesis is more accurate than the existing solutions which are based on Kirchhoff theory of diffraction. This solution removes the previous restriction on the source and the receiver arrangement. It also provides high efficiency by the use of ray theory. This solution is further generalized to two offset half-planes and an inclined wedge. Solutions for more complicated structures can be obtained by superposition of these solutions with added interactions. The complex source position method is used to extend the omnidirectional point source solution to a beam source solution. The effect of changes of the directivity and orientation of the beam source is studied. Time-domain single and double diffraction coefficients are determined through direct Fourier transforming and convolution. An infinite impulse response filter is applied to the time-domain direct computation of single diffraction. This combination achieves a total saving of 75% of computing time over the frequency-domain approach. Diffraction by a curved half-plane is analyzed with the inclusion of creeping wave diffraction and second order edge diffraction. An acoustic model of a curved half-plane is designed to verify the theory. The experimental results obtained by Mellema have verified the existence of the creeping wave diffraction and weak traces of the second order edge diffraction. / Applied Science, Faculty of / Electrical and Computer Engineering, Department of / Graduate

Sound-waves -- Diffraction

Geometrical diffraction

Radiation pattern of a disk transducer in sea ice.

Hwang, Chung-Yung.

January 1967

No description available.

Sea ice

Sound-waves

Transducers

Phonon scattering from two-level systems in one dimension

Berard, Marcel J.

January 1983

No description available.

Phonons -- Scattering.

Sound-waves -- Scattering.