Analytical and Numerical Methods for Wave Propagation in Fluid Media

Analytical and Numerical Methods for Wave Propagation in Fluid Media

Author: K. Murawski

Publisher: World Scientific

Published: 2002

Total Pages: 260

ISBN-13: 9789812776631

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This book surveys analytical and numerical techniques appropriate to the description of fluid motion with an emphasis on the most widely used techniques exhibiting the best performance.Analytical and numerical solutions to hyperbolic systems of wave equations are the primary focus of the book. In addition, many interesting wave phenomena in fluids are considered using examples such as acoustic waves, the emission of air pollutants, magnetohydrodynamic waves in the solar corona, solar wind interaction with the planet venus, and ion-acoustic solitons.


Effective Computational Methods for Wave Propagation

Effective Computational Methods for Wave Propagation

Author: Nikolaos A. Kampanis

Publisher: CRC Press

Published: 2008-02-25

Total Pages: 707

ISBN-13: 1420010875

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Due to the increase in computational power and new discoveries in propagation phenomena for linear and nonlinear waves, the area of computational wave propagation has become more significant in recent years. Exploring the latest developments in the field, Effective Computational Methods for Wave Propagation presents several modern, valuable


Higher-Order Numerical Methods for Transient Wave Equations

Higher-Order Numerical Methods for Transient Wave Equations

Author: Gary Cohen

Publisher: Springer Science & Business Media

Published: 2001-11-06

Total Pages: 372

ISBN-13: 9783540415985

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"To my knowledge [this] is the first book to address specifically the use of high-order discretizations in the time domain to solve wave equations. [...] I recommend the book for its clear and cogent coverage of the material selected by its author." --Physics Today, March 2003


Numerical Modeling of Seismic Wave Propagation

Numerical Modeling of Seismic Wave Propagation

Author: Johan O. A. Robertsson

Publisher: SEG Books

Published: 2012

Total Pages: 115

ISBN-13: 1560802901

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The decades following SEG's 1990 volume on numerical modeling showed a step change in the application and use of full wave equation modeling methods enabled by the increase in computational power. Full waveform inversion, reverse time migration, and 3D elastic finite-difference synthetic data generation are examples. A searchable CD is included.


Numerical Methods for Wave Equations in Geophysical Fluid Dynamics

Numerical Methods for Wave Equations in Geophysical Fluid Dynamics

Author: Dale R. Durran

Publisher: Springer Science & Business Media

Published: 2013-03-14

Total Pages: 476

ISBN-13: 1475730810

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Covering a wide range of techniques, this book describes methods for the solution of partial differential equations which govern wave propagation and are used in modeling atmospheric and oceanic flows. The presentation establishes a concrete link between theory and practice.


Numerical Simulation of Optical Wave Propagation with Examples in MATLAB

Numerical Simulation of Optical Wave Propagation with Examples in MATLAB

Author: Jason Daniel Schmidt

Publisher: Society of Photo Optical

Published: 2010

Total Pages: 196

ISBN-13: 9780819483263

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Numerical Simulation of Optical Wave Propagation is solely dedicated to wave-optics simulations. The book discusses digital Fourier transforms (FT), FT-based operations, multiple methods of wave-optics simulations, sampling requirements, and simulations in atmospheric turbulence.


Wave Propagation in Fluids

Wave Propagation in Fluids

Author: Vincent Guinot

Publisher: John Wiley & Sons

Published: 2012-12-27

Total Pages: 394

ISBN-13: 1118587634

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This second edition with four additional chapters presents the physical principles and solution techniques for transient propagation in fluid mechanics and hydraulics. The application domains vary including contaminant transport with or without sorption, the motion of immiscible hydrocarbons in aquifers, pipe transients, open channel and shallow water flow, and compressible gas dynamics. The mathematical formulation is covered from the angle of conservation laws, with an emphasis on multidimensional problems and discontinuous flows, such as steep fronts and shock waves. Finite difference-, finite volume- and finite element-based numerical methods (including discontinuous Galerkin techniques) are covered and applied to various physical fields. Additional chapters include the treatment of geometric source terms, as well as direct and adjoint sensitivity modeling for hyperbolic conservation laws. A concluding chapter is devoted to practical recommendations to the modeler. Application exercises with on-line solutions are proposed at the end of the chapters.


Parabolic Equation Methods for Electromagnetic Wave Propagation

Parabolic Equation Methods for Electromagnetic Wave Propagation

Author: Mireille Levy

Publisher: IET

Published: 2000

Total Pages: 360

ISBN-13: 9780852967645

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Provides scientists and engineers with a tool for accurate assessment of diffraction and ducting on radio and radar systems. The author gives the mathematical background to parabolic equations modeling and describes simple parabolic equation algorithms before progressing to more advanced topics such as domain truncation, the treatment of impedance boundaries, and the implementation of very fast hybrid methods combining ray-tracing and parabolic equation techniques. The last three chapters are devoted to scattering problems, with application to propagation in urban environments and to radar-cross- section computation. Annotation copyrighted by Book News, Inc., Portland, OR


Wave Fields in Real Media

Wave Fields in Real Media

Author: José M. Carcione

Publisher: Elsevier

Published: 2014-12-08

Total Pages: 690

ISBN-13: 0081000030

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Authored by the internationally renowned José M. Carcione, Wave Fields in Real Media: Wave Propagation in Anisotropic, Anelastic, Porous and Electromagnetic Media examines the differences between an ideal and a real description of wave propagation, starting with the introduction of relevant stress-strain relations. The combination of this relation and the equations of momentum conservation lead to the equation of motion. The differential formulation is written in terms of memory variables, and Biot's theory is used to describe wave propagation in porous media. For each rheology, a plane-wave analysis is performed in order to understand the physics of wave propagation. This book contains a review of the main direct numerical methods for solving the equation of motion in the time and space domains. The emphasis is on geophysical applications for seismic exploration, but researchers in the fields of earthquake seismology, rock acoustics, and material science - including many branches of acoustics of fluids and solids - may also find this text useful. New to this edition: This new edition presents the fundamentals of wave propagation in Anisotropic, Anelastic, Porous Media while also incorporating the latest research from the past 7 years, including that of the author. The author presents all the equations and concepts necessary to understand the physics of wave propagation. These equations form the basis for modeling and inversion of seismic and electromagnetic data. Additionally, demonstrations are given, so the book can be used to teach post-graduate courses. Addition of new and revised content is approximately 30%. Examines the fundamentals of wave propagation in anisotropic, anelastic and porous media Presents all equations and concepts necessary to understand the physics of wave propagation, with examples Emphasizes geophysics, particularly, seismic exploration for hydrocarbon reservoirs, which is essential for exploration and production of oil


Ocean Acoustic Propagation by Finite Difference Methods

Ocean Acoustic Propagation by Finite Difference Methods

Author: D. Lee

Publisher: Elsevier

Published: 2014-06-28

Total Pages: 134

ISBN-13: 1483295699

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A concise guide to the theory and application of numerical methods for predicting ocean acoustic propagation, also providing an introduction to numerical methods, with an overview of those methods presently in use. An in-depth development of the implicit-finite-difference technique is presented together with bench-mark test examples included to demonstrate its application to realistic ocean environments. Other applications include atmospheric acoustics, plasma physics, quantum mechanics, optics and seismology.