Light scattering is one of the most well-studied phenomena in nature. It occupies a central place in optical physics, and plays a key role in multiple fields of science and engineering. For students and researchers in these fields, this volume presents a comprehensive introduction to the subject.
Light scattering is one of the most well-studied phenomena in nature. It occupies a central place in optical physics, and plays a key role in multiple fields of science and engineering. For students and researchers in these fields, this volume presents a comprehensive introduction to the subject.
Rémi Carminati is Professor of Physics at ESPCI Paris - PSL, before which he held a faculty position at Ecole Centrale Paris. He was awarded the Fabry-de-Gramont prize of the French Optical Society, and is a Fellow of the Optical Society of America.
Inhaltsangabe
Foreword Preface 1. Introduction Part I. Wave Optics: 2. Electromagnetic waves 3. Geometrical optics 4. Waves at interfaces 5. Green's functions and integral representations 6. Plane-wave expansions 7. Diffraction 8. Coherence theory: basic concepts 9. Coherence theory: propagation of correlations Part II. Scattering of Waves: 10. Scattering theory 11. Optical theorem 12. Scattering in model systems 13. Renormalized perturbation theory 14. Wave reciprocity Part III. Wave Transport: 15. Multiple scattering: average field 16. Multiple scattering: field correlations and radiative transport 17. Radiative transport: multiscale theory 18. Discrete scatterers and spatial correlations 19. Time-dependent radiative transport and energy velocity Part IV. Radiative Transport and Diffusions: 20. Radiative transport: boundary conditions and integral representations 21. Elementary solutions of the radiative transport equation 22. Problems with planar and azimuthal symmetry 23. Scattering theory for the radiative transport equation 24. Diffusion approximation 25. Diffuse light 26. Diffuse optics 27. Scattering of diffuse waves Part V. Speckle and Interference Phenomena: 28. Intensity statistics 29. Some properties of Rayleigh statistics 30. Bulk speckle correlations 31. Two-frequency speckle correlations 32. Amplitude and intensity propagators for multiply-scattered fields 33. Far-field angular speckle correlations 34. Coherent backscattering 35. Dynamic light scattering Part VI. Electromagnetic Waves and Near-field Scattering: 36. Vector waves 37. Electromagnetic Green's functions 38. Electric dipole radiation 39. Scattering of electromagnetic waves 40. Electromagnetic reciprocity and the optical theorem 41. Electromagnetic scattering by subwavelength particles 42. Multiple scattering of electromagnetic waves: Average field 43. Multiple scattering of electromagnetic waves: radiative transport 44. Bulk electromagnetic speckle correlations 45. Near-field speckle correlations 46. Speckle correlations produced by a point source Exercises Index.
Foreword Preface 1. Introduction Part I. Wave Optics: 2. Electromagnetic waves 3. Geometrical optics 4. Waves at interfaces 5. Green's functions and integral representations 6. Plane-wave expansions 7. Diffraction 8. Coherence theory: basic concepts 9. Coherence theory: propagation of correlations Part II. Scattering of Waves: 10. Scattering theory 11. Optical theorem 12. Scattering in model systems 13. Renormalized perturbation theory 14. Wave reciprocity Part III. Wave Transport: 15. Multiple scattering: average field 16. Multiple scattering: field correlations and radiative transport 17. Radiative transport: multiscale theory 18. Discrete scatterers and spatial correlations 19. Time-dependent radiative transport and energy velocity Part IV. Radiative Transport and Diffusions: 20. Radiative transport: boundary conditions and integral representations 21. Elementary solutions of the radiative transport equation 22. Problems with planar and azimuthal symmetry 23. Scattering theory for the radiative transport equation 24. Diffusion approximation 25. Diffuse light 26. Diffuse optics 27. Scattering of diffuse waves Part V. Speckle and Interference Phenomena: 28. Intensity statistics 29. Some properties of Rayleigh statistics 30. Bulk speckle correlations 31. Two-frequency speckle correlations 32. Amplitude and intensity propagators for multiply-scattered fields 33. Far-field angular speckle correlations 34. Coherent backscattering 35. Dynamic light scattering Part VI. Electromagnetic Waves and Near-field Scattering: 36. Vector waves 37. Electromagnetic Green's functions 38. Electric dipole radiation 39. Scattering of electromagnetic waves 40. Electromagnetic reciprocity and the optical theorem 41. Electromagnetic scattering by subwavelength particles 42. Multiple scattering of electromagnetic waves: Average field 43. Multiple scattering of electromagnetic waves: radiative transport 44. Bulk electromagnetic speckle correlations 45. Near-field speckle correlations 46. Speckle correlations produced by a point source Exercises Index.
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