Ideal for graduate-level courses in optics this book covers a broad range of fundamental topics in classical optics and electro-magnetism.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Masud Mansuripur received a Bachelor of Science degree in Electrical Engineering from Arya-Mehr University of Technology in Tehran, Iran (1977), a Master of Science in Electrical Engineering from Stanford University (1978), a Master of Science in Mathematics from Stanford University (1980), and a Ph.D. in Electrical Engineering from Stanford University (1981). He has been Professor of Optical Sciences at the University of Arizona since 1988. His areas of research include: optical data storage, optical signal processing, magneto-optical properties of thin magnetic films, radiation pressure, interaction of light with sub-wavelength structures, and the optical and thermal characterization of thin films and stacks. A Fellow of the Optical Society of America, he has published more than 250 papers in various technical journals, holds eight patents, has given numerous invited talks at international scientific conferences, and has been a contributing editor of Optics & Photonics News, the magazine of the Optical Society of America. Professor Mansuripur's published books include Introduction to Information Theory (1987) and The Physical Principles of Magneto-optical Recording (1995).
Inhaltsangabe
Preface Introduction 1. Abbe's sine condition 2. Fourier optics 3. Effect of polarization on diffraction in systems of high numerical aperture 4. Gaussian beam optics 5. Coherent and incoherent imaging 6. First-order temporal coherence in classical optics 7. The Van Cittert-Zernike theorem 8. Partial polarization, Stokes parameters, and the Poincarè Sphere 9. Second-order coherence and the Hanbury Brown-Twiss experiment 10. What in the world are surface plasmons? 11. Surface plasmon polaritons on metallic surfaces 12. The Faraday effecy 13. The magneto-optical Kerr effect 14. The Sagnac interferometer 15. Fabry-Perot etalons in polarized light 16. The Ewald-Oseen extinction theorem 17. Reciprocity in classical Linear optics 18. Optical pulse compression 19. The uncertainty principle in classical optics 20. Omni-directional dielectric mirrors 21. Optical vortices 22. Geometric-optical rays, Poynting's vector, and field momenta 23. Doppler shift, stellar aberration, and convection of light by moving Media 24. Diffraction gratings 25. Diffractive optical elements 26. The talbot effect 27. Some quirks of total internal reflection 28. Evanescent coupling 29. Internal and external conical refraction 30. Transmission of light through small elliptical apertures 31. The method of Fox and Li 32. The beam propagation method 33. Launching light into a Fiber 34. The optics of semiconductor diode lasers 35. Michelson's dtellar interferometer 36. Bracewell's interferometric telescope 37. Scanning optical microscopy 38. Zernike's method of phase contrast 39. Polarization microscopy 40. Nomarski's differential interference contrast microscope 41. The Van Leeuwenhoek microscope 42. Projection photolithography 43. Interaction of light with subwavelength structures 44 The Ronchi test 45. The Shack-Hartmann Wavefront sensor 46. Ellipsometry 47. Holography and holographic interferometry 48. Self-focusing in non-linear optical media 49. Spatial optical solitons 50. Laser-induced heating of multilayers Index.
Preface Introduction 1. Abbe's sine condition 2. Fourier optics 3. Effect of polarization on diffraction in systems of high numerical aperture 4. Gaussian beam optics 5. Coherent and incoherent imaging 6. First-order temporal coherence in classical optics 7. The Van Cittert-Zernike theorem 8. Partial polarization, Stokes parameters, and the Poincarè Sphere 9. Second-order coherence and the Hanbury Brown-Twiss experiment 10. What in the world are surface plasmons? 11. Surface plasmon polaritons on metallic surfaces 12. The Faraday effecy 13. The magneto-optical Kerr effect 14. The Sagnac interferometer 15. Fabry-Perot etalons in polarized light 16. The Ewald-Oseen extinction theorem 17. Reciprocity in classical Linear optics 18. Optical pulse compression 19. The uncertainty principle in classical optics 20. Omni-directional dielectric mirrors 21. Optical vortices 22. Geometric-optical rays, Poynting's vector, and field momenta 23. Doppler shift, stellar aberration, and convection of light by moving Media 24. Diffraction gratings 25. Diffractive optical elements 26. The talbot effect 27. Some quirks of total internal reflection 28. Evanescent coupling 29. Internal and external conical refraction 30. Transmission of light through small elliptical apertures 31. The method of Fox and Li 32. The beam propagation method 33. Launching light into a Fiber 34. The optics of semiconductor diode lasers 35. Michelson's dtellar interferometer 36. Bracewell's interferometric telescope 37. Scanning optical microscopy 38. Zernike's method of phase contrast 39. Polarization microscopy 40. Nomarski's differential interference contrast microscope 41. The Van Leeuwenhoek microscope 42. Projection photolithography 43. Interaction of light with subwavelength structures 44 The Ronchi test 45. The Shack-Hartmann Wavefront sensor 46. Ellipsometry 47. Holography and holographic interferometry 48. Self-focusing in non-linear optical media 49. Spatial optical solitons 50. Laser-induced heating of multilayers Index.
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