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Problems in optics /
This collection of problems and accompanying solutions provide the reader with a full introduction to physical optics. The subject coverage is fairly traditional, with chapters on interference and diffraction, and there is a general emphasis on spectroscopy.
| Clasificación: | Libro Electrónico |
|---|---|
| Autores principales: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés Francés |
| Publicado: |
Oxford ; New York :
Pergamon Press,
[1973]
|
| Edición: | [1st ed.]. |
| Colección: | International series of monographs in natural philosophy ;
v. 52. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Problems in Optics; Copyright Page; Table of Contents; Foreword; Principal Physical Constants; CHAPTER 1. INTERFERENCE; 1. Visibility of Young's Fringes; 2. Young's Experiment. Achromatic Fringes; 3. Fourier Spectroscopy; 4. Mach Interferometer; 5. Michelson Interferometer; 6. Interference Filters; 7. Fabry-P�erot Etalon. Use of Screens; 8. Observation of Phase Objects by the Tolansky Method; 9. Fabry-P�erot (Interference) Spectroscopy; CHAPTER 2. ELECTROMAGNETIC OPTICS; 10. Interference of Hertzian Waves; 11. Fresnel Formulas; 12. Fresnel Formulas. Thin Films
- 13. Newton's Rings in Polarized Light14. Propagation of Waves in a Stratified Dielectric Medium; 15. Electromagnetic Waves in a Resonant Cavity; 16. Radiation Pressure; 17. Antennas; 18. Hertzian Dipoles; CHAPTER 3. EMISSION AND ABSORPTION; 19. Photometry. The Earth-Sun System; 20. The Spectra and Energy of a Laser; 21. Optical Constants of Germanium; 22. Absorption. Black Bodies and Coloured Bodies; 23. Absorption. Kirchhoff's Law; CHAPTER 4. BIREFRINGENCE; 24. Stokes' Parameters. Poincar�e Representation. Muller Matrices; 25. Fresnel Formulas. Birefringent Prism
- 26. The Field of Polarizing Prisms27. Rotary Dispersion; 28. Two Passes through a Quarter-wave Plate; 29. Birefringent Monochromator; 30. Experiments of Fresnel and Arago; 31. Polarization Interferometer. Differential Method; 32. Electrical Birefringence; 33. Rotary Power. Circular Dichroism; 34. Faraday Effect; CHAPTER 5. DIFFRACTION; 35. Far-field Diffraction; 36. Diffraction by Circular Pupils; 37. Abbe's Experiment; 38. Holography; 39. Reflection Gratings; 40. Irregular Grating; 41. Phase Grating; 42. X-rays. Production and Diffraction; 43. X-ray Spectrometer with a Curved Crystal
- CHAPTER 6. REFRACTION AND DISPERSION44. Group and Phase Velocity; 45. Foucault Method for the Velocity of Light; 46. Velocity of Light in Moving Water; 47. Propagation of Waves in a Periodic Discontinuous Medium; 48. Sellmeier Dispersion Equation; 49. Dispersion in a Region of Weak Absorption; 50. Band Spectra. Anomalous Dispersion of a Vapour; 51. Scattering of Electromagnetic Radiation Using a Classical Atomic Model; 52. Dispersion and Reflection of an Ionic Crystal in the Infrared; 53. Transmission of an Absorbing Thin Film; 54. Electromagnetic Waves in a Plasma; 55. Plasma Oscillations
- CHAPTER 7. QUANTUM MECHANICS56. Electromagnetic and de Broglie Waves; 57. Five Exercises on Uncertainty Relationships; 58. Potential Barrier; 59. The Deuteron; 60. Double Potential Well; 61. Angular Momentum Operators; 62. The Compton Effect; 63. Planck Radiation Formula; 64. Ground State of a Two-electron Atom; 65. First-order Perturbation. Ground State of Helium; 66. Second-order Perturbation. Stark Effect for a Rotor; 67. Intramolecular Potential of Ethane; 68. Vibrational-rotational Energy of a Diatomic Molecule; CHAPTER 8. ATOMIC AND MOLECULAR SPECTRA; 69. Spectrum of the Hydrogen Atom