Patrick Sebbah

Waves and Imaging Through Complex Media

Herausgeber: Sebbah, P.

• Gebundenes Buch

Produktbeschreibung

Recent advances in wave propagation in random media are certainly consequences of new approaches to fundamental issues, as well as of a strong interest in potential applications. A collective effort has been made to present in this book the state of the art in fundamental concepts, as well as in biomedical imaging techniques. As an example, the recent introduction of wave chaos, and more specifically random matrix theory - an old tool from nuclear physics - to the study of multiple scattering, has pointed the way to a deeper understanding of wave coherence in complex media. At the same time, efficient new approaches for retrieving information from random media promise to allow wave imaging of small tumors in opaque tissues. Review chapters are written by experts in the field, with the aim of making the book accessible to the widest possible scientific audience: graduate students and research scientists in theoretical and applied physics, optics, acoustics, and biomedical physics.

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Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.

Produktdetails

• Verlag: Springer London
• Seitenzahl: 472
• Erscheinungstermin: 31. März 2001
• Englisch
• ISBN-13: 9780792368144
• ISBN-10: 0792368142
• Artikelnr.: 24487650

Inhaltsangabe

Preface. Part I: Introduction. 1. Wave Chaos and Multiple Scattering: a
Story of Coherence; O. Legrand. 2. Towards Optical Biopsy: a Brief
Introduction; A.C. Boccara, P.M.W. French. Part II: Multiple Wave
Scattering. 1. Coherent Multiple Scattering in Disordered Media; E.
Akkermans, G. Montambaux. 2. Statistical Approach to Photon Localization;
A.Z. Genack, A.A. Chabanov. Part III: Wave Chaos and Multiple Scattering.
1. The Semiclassical Approach for Chaotic Systems; D. Delande. 2. Random
Matrix Theory of Scattering in Chaotic and Disordered Media; J.-L. Pichard.
3. Wave Chaos in Elastodynamics; R.L. Weaver. 4. Time-reversed Acoustics
and Chaotic Scattering; M. Fink, J. de Rosny. Part IV: Imaging in
Heterogeneous Media: Ballistic Photons. 1. Imaging Biological Tissue using
Photorefractive Holography and Fluorescence Lifetime; N.P. Barry, et al.
2. Simultaneous Optical Coherence and Two-photon Fluorescence Microscopy;
E. Beaurepaire, et al. 3. Low Coherence Interferometric Technique; G. Brun,
et al. 4. Laser Optical Feedback Tomography; E. Lacot, et al. 5. Imagery of
Diffusing Media by Heterodyne Holography; M. Gross, et al. 6. Imaging
through Diffusing Media by Image Parametric Amplification; E. Lantz, et al.
Part V: Imaging in Heterogeneous Media: Diffuse Light. 1. Detection of
Multiply Scattered Light in Optical Coherence Microscopy; K.K. Bizheva, et
al. 2. Scattering by a Thin Slab: Comparison between Radiative Transfer and
Electromagnetic Simulation; J.-J. Greffet, et al. 3. Methods for the
Inverse Problem in Optical Tomography; S.R. Arridge. 4. Inverse Problem for
Stratified Scattering Media; J.-M. Tualle, et al. 5. Scattering on
Multi-scale Rough Surfaces; C.A. Guérin, et al. Part VI: Dynamic Multiple
Light Scattering. 1. Imaging of Dynamic Heterogeneities in Multiple Light
Scattering; G. Maret, M. Heckmeier. 2. Diffuse Laser Doppler Velocimetry
from Multiple Scattering Media and Flowing Suspensions; P. Snabre, et al.
3. High Resolution Acousto-optic Imaging; S. Lévêque-Fort. Part VII:
Speckle Correlations in Random Media. 1. Correlation of Speckle in Random
Media; R. Pnini. 2. Dynamic Speckle Correlations; F. Scheffold, G. Maret.
3. Spatio-temporal Speckle Correlations for Imaging in Turbid Media; S.E.
Skipetrov. 4. Speckle Correlations and Coherent Backscattering in Nonlinear
Random Media; R. Bressoux, R. Maynard. Index. Author Index.