Photonics Modelling and Design

Photonics Modelling and Design

by Slawomir Sujecki
Released December 2014
Publisher(s): CRC Press
ISBN: 9781466561274

Read it now on the O’Reilly learning platform with a 10-day free trial.

O’Reilly members get unlimited access to books, live events, courses curated by job role, and more from O’Reilly and nearly 200 top publishers.

Start your free trial

Book description

Photonics Modeling and Design delivers a concise introduction to the modeling and design of photonic devices. Assuming a general knowledge of photonics and the operating principles of fibre and semiconductor lasers, this book:

  • Describes the analysis of the light propagation in dielectric media
  • Discusses heat diffusion and carrier transport
  • Applies the presented theory to develop fibre and semiconductor laser models
  • Addresses the propagation of short optical pulses in optical fibres
  • Puts all modeling into practical context with examples of devices currently in development or on the market

Providing hands-on guidance in the form of MATLAB® scripts, tips, and other downloadable content, Photonics Modeling and Design is written for students and professionals interested in modeling photonic devices either for gaining a deeper understanding of the operation or to optimize the design.

Table of contents

  1. Front Cover
  2. Dedication
  3. Contents
  4. Preface
  5. Biography
  6. Chapter 1: Introduction (1/2)
  7. Chapter 1: Introduction (2/2)
  8. Chapter 2: Light Propagation in Homogenous Media (1/9)
  9. Chapter 2: Light Propagation in Homogenous Media (2/9)
  10. Chapter 2: Light Propagation in Homogenous Media (3/9)
  11. Chapter 2: Light Propagation in Homogenous Media (4/9)
  12. Chapter 2: Light Propagation in Homogenous Media (5/9)
  13. Chapter 2: Light Propagation in Homogenous Media (6/9)
  14. Chapter 2: Light Propagation in Homogenous Media (7/9)
  15. Chapter 2: Light Propagation in Homogenous Media (8/9)
  16. Chapter 2: Light Propagation in Homogenous Media (9/9)
  17. Chapter 3: Optical Waveguides (1/16)
  18. Chapter 3: Optical Waveguides (2/16)
  19. Chapter 3: Optical Waveguides (3/16)
  20. Chapter 3: Optical Waveguides (4/16)
  21. Chapter 3: Optical Waveguides (5/16)
  22. Chapter 3: Optical Waveguides (6/16)
  23. Chapter 3: Optical Waveguides (7/16)
  24. Chapter 3: Optical Waveguides (8/16)
  25. Chapter 3: Optical Waveguides (9/16)
  26. Chapter 3: Optical Waveguides (10/16)
  27. Chapter 3: Optical Waveguides (11/16)
  28. Chapter 3: Optical Waveguides (12/16)
  29. Chapter 3: Optical Waveguides (13/16)
  30. Chapter 3: Optical Waveguides (14/16)
  31. Chapter 3: Optical Waveguides (15/16)
  32. Chapter 3: Optical Waveguides (16/16)
  33. Chapter 4: Beam Propagation Method (1/13)
  34. Chapter 4: Beam Propagation Method (2/13)
  35. Chapter 4: Beam Propagation Method (3/13)
  36. Chapter 4: Beam Propagation Method (4/13)
  37. Chapter 4: Beam Propagation Method (5/13)
  38. Chapter 4: Beam Propagation Method (6/13)
  39. Chapter 4: Beam Propagation Method (7/13)
  40. Chapter 4: Beam Propagation Method (8/13)
  41. Chapter 4: Beam Propagation Method (9/13)
  42. Chapter 4: Beam Propagation Method (10/13)
  43. Chapter 4: Beam Propagation Method (11/13)
  44. Chapter 4: Beam Propagation Method (12/13)
  45. Chapter 4: Beam Propagation Method (13/13)
  46. Chapter 5: Thermal Modelling of Photonic Devices (1/9)
  47. Chapter 5: Thermal Modelling of Photonic Devices (2/9)
  48. Chapter 5: Thermal Modelling of Photonic Devices (3/9)
  49. Chapter 5: Thermal Modelling of Photonic Devices (4/9)
  50. Chapter 5: Thermal Modelling of Photonic Devices (5/9)
  51. Chapter 5: Thermal Modelling of Photonic Devices (6/9)
  52. Chapter 5: Thermal Modelling of Photonic Devices (7/9)
  53. Chapter 5: Thermal Modelling of Photonic Devices (8/9)
  54. Chapter 5: Thermal Modelling of Photonic Devices (9/9)
  55. Chapter 6: Flow of Current in Semiconductor Photonic Devices (1/8)
  56. Chapter 6: Flow of Current in Semiconductor Photonic Devices (2/8)
  57. Chapter 6: Flow of Current in Semiconductor Photonic Devices (3/8)
  58. Chapter 6: Flow of Current in Semiconductor Photonic Devices (4/8)
  59. Chapter 6: Flow of Current in Semiconductor Photonic Devices (5/8)
  60. Chapter 6: Flow of Current in Semiconductor Photonic Devices (6/8)
  61. Chapter 6: Flow of Current in Semiconductor Photonic Devices (7/8)
  62. Chapter 6: Flow of Current in Semiconductor Photonic Devices (8/8)
  63. Chapter 7: Fibre Amplifiers and Lasers (1/10)
  64. Chapter 7: Fibre Amplifiers and Lasers (2/10)
  65. Chapter 7: Fibre Amplifiers and Lasers (3/10)
  66. Chapter 7: Fibre Amplifiers and Lasers (4/10)
  67. Chapter 7: Fibre Amplifiers and Lasers (5/10)
  68. Chapter 7: Fibre Amplifiers and Lasers (6/10)
  69. Chapter 7: Fibre Amplifiers and Lasers (7/10)
  70. Chapter 7: Fibre Amplifiers and Lasers (8/10)
  71. Chapter 7: Fibre Amplifiers and Lasers (9/10)
  72. Chapter 7: Fibre Amplifiers and Lasers (10/10)
  73. Chapter 8: Laser Diode Modelling (1/10)
  74. Chapter 8: Laser Diode Modelling (2/10)
  75. Chapter 8: Laser Diode Modelling (3/10)
  76. Chapter 8: Laser Diode Modelling (4/10)
  77. Chapter 8: Laser Diode Modelling (5/10)
  78. Chapter 8: Laser Diode Modelling (6/10)
  79. Chapter 8: Laser Diode Modelling (7/10)
  80. Chapter 8: Laser Diode Modelling (8/10)
  81. Chapter 8: Laser Diode Modelling (9/10)
  82. Chapter 8: Laser Diode Modelling (10/10)
  83. Chapter 9: Pulse Propagationin Optical Fibres (1/4)
  84. Chapter 9: Pulse Propagationin Optical Fibres (2/4)
  85. Chapter 9: Pulse Propagationin Optical Fibres (3/4)
  86. Chapter 9: Pulse Propagationin Optical Fibres (4/4)
  87. Back Cover

Product information

  • Title: Photonics Modelling and Design
  • Author(s): Slawomir Sujecki
  • Release date: December 2014
  • Publisher(s): CRC Press
  • ISBN: 9781466561274