Sale!
30% Off

Wave Momentum and Quasi-Particles in Physical Acoustics

6304.000

14 in stock


AuthorMaugin Gerard A & Rousseau Martine
ISBN9789814663786
Published LanguageEnglish
Publication Year2015
PublisherWorld Scientific
BindingHardback
Original Price$114
Pages252
Ships By2-3 days

Description

This unique volume presents an original approach to physical acoustics with additional emphasis on the most useful surface acoustic waves on solids. The study is based on foundational work of L? on Brillouin, and application of the celebrated invariance theorem of Emmy Noether to an element of volume that is representative of the wave motion.

This approach provides an easy interpretation of typical wave motions of physical acoustics in bulk, at surfaces, and across interfaces, in the form of the motion of associated quasi-particles. This type of motion, Newtonian or not, depends on the wave motion considered, and on the original modeling of the continuum that supports it. After a thoughtful review of Brillouin’s fundamental ideas related to radiative stresses, wave momentum and action, and the necessary reminder on modern nonlinear continuum thermomechanics, invariance theory and techniques of asymptotics, a variety of situations and models illustrates the power and richness of the approach and its strong potential in applications. Elasticity, piezoelectricity and new models of continua with nonlinearity, viscosity and some generalized features (microstructure, weak or strong nonlocality) or unusual situations (bounding surface with energy, elastic thin film glued on a surface waveguide), are considered, exhibiting thus the versatility of the approach.

This original book offers an innovative vision and treatment of the problems of wave propagation in deformable solids. It opens up new horizons in the theoretical and applied facets of physical acoustics.

About the author
Univ Pierre Et Marie Curie, Paris, France

Additional information

Weight0.498 kg
Dimensions22.9 × 15.2 cm
Author

ISBN

Publisher

Pages

252

Ships By

2-3 days