fundamentals of photonics 2nd edition solution manual pdf

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Fundamentals of Photonics, Third Edition is a self-contained and up-to-date introductory-level textbook that thoroughly surveys this rapidly expanding area of engineering and applied physics. Featuring a blend of theory and applications, coverage includes detailed accounts of the primary theories of light, including ray optics, wave optics, electromagnetic optics, and photon optics, as well as the interaction of light and matter. Presented at increasing levels of complexity, preliminary sections build toward more advanced topics, such as Fourier optics and holography, photonic-crystal optics, guided-wave and fiber optics, LEDs and lasers, acousto-optic and electro-optic devices, nonlinear optical devices, ultrafast optics, optical interconnects and switches, and optical fiber communications. The third edition features an entirely new chapter on the optics of metals and plasmonic devices. Each chapter contains highlighted equations, exercises, problems, summaries, and selected reading lists. Examples of real systems are included to emphasize the concepts governing applications of current interest. Each of the twenty-four chapters of the second edition has been thoroughly updated.

Fundamentals of Photonics, 2 Volume Set, 3rd Edition [Book]

Table Of Contents: Fundamentals Of Photonics 2nd Edition Solution Manual Pdf

  1. Cover
  2. PREFACE TO THE THIRD EDITION
  3. PREFACE TO THE SECOND EDITION
  4. PREFACE TO THE FIRST EDITION
  5. FUNDAMENTALS OF PHOTONICS
    1. Part I: Optics(Chapters 1–13)
    2. CHAPTER 1 RAY OPTICS
      1. 1.1 POSTULATES OF RAY OPTICS
      2. 1.2 SIMPLE OPTICAL COMPONENTS
      3. 1.3 GRADED-INDEX OPTICS
      4. 1.4 MATRIX OPTICS
      5. READING LIST
      6. PROBLEMS
      7. Notes
    3. CHAPTER 2 WAVE OPTICS
      1. 2.1 POSTULATES OF WAVE OPTICS
      2. 2.2 MONOCHROMATIC WAVES
      3. *2.3 RELATION BETWEEN WAVE OPTICS AND RAY OPTICS
      4. 2.4 SIMPLE OPTICAL COMPONENTS
      5. 2.5 INTERFERENCE
      6. 2.6 POLYCHROMATIC AND PULSED LIGHT
      7. READING LIST
      8. PROBLEMS
      9. Notes
    4. CHAPTER 3 BEAM OPTICS
      1. 3.1 THE GAUSSIAN BEAM
      2. 3.2 TRANSMISSION THROUGH OPTICAL COMPONENTS
      3. 3.3 HERMITE–GAUSSIAN BEAMS
      4. 3.4 LAGUERRE–GAUSSIAN BEAMS
      5. 3.5 NONDIFFRACTING BEAMS
      6. READING LIST
      7. PROBLEMS
      8. Notes
    5. CHAPTER 4 FOURIER OPTICS
      1. 4.1 PROPAGATION OF LIGHT IN FREE SPACE
      2. 4.2 OPTICAL FOURIER TRANSFORM
      3. 4.3 DIFFRACTION OF LIGHT
      4. 4.4 IMAGE FORMATION
      5. 4.5 HOLOGRAPHY
      6. READING LIST
      7. PROBLEMS
      8. Notes
    6. CHAPTER 5 ELECTROMAGNETIC OPTICS
      1. 5.1 ELECTROMAGNETIC THEORY OF LIGHT
      2. 5.2 ELECTROMAGNETIC WAVES IN DIELECTRIC MEDIA
      3. 5.3 MONOCHROMATIC ELECTROMAGNETIC WAVES
      4. 5.4 ELEMENTARY ELECTROMAGNETIC WAVES
      5. 5.5 ABSORPTION AND DISPERSION
      6. 5.6 SCATTERING OF ELECTROMAGNETIC WAVES
      7. 5.7 PULSE PROPAGATION IN DISPERSIVE MEDIA
      8. READING LIST
      9. PROBLEMS
      10. Notes
    7. CHAPTER 6 POLARIZATION OPTICS
      1. 6.1 POLARIZATION OF LIGHT
      2. 6.2 REFLECTION AND REFRACTION
      3. 6.3 OPTICS OF ANISOTROPIC MEDIA
      4. 6.4 OPTICAL ACTIVITY AND MAGNETO-OPTICS
      5. 6.5 OPTICS OF LIQUID CRYSTALS
      6. 6.6 POLARIZATION DEVICES
      7. READING LIST
      8. PROBLEMS
      9. Notes
    8. CHAPTER 7 PHOTONIC-CRYSTAL OPTICS
      1. 7.1 OPTICS OF DIELECTRIC LAYERED MEDIA
      2. 7.2 ONE-DIMENSIONAL PHOTONIC CRYSTALS
      3. 7.3 TWO- AND THREE-DIMENSIONAL PHOTONIC CRYSTALS
      4. READING LIST
      5. PROBLEMS
      6. Notes
    9. CHAPTER 8 METAL AND METAMATERIAL OPTICS
      1. 8.1 SINGLE- AND DOUBLE-NEGATIVE MEDIA
      2. 8.2 METAL OPTICS: PLASMONICS
      3. 8.3 METAMATERIAL OPTICS
      4. *8.4 TRANSFORMATION OPTICS
      5. READING LIST
      6. PROBLEMS
      7. Notes
    10. CHAPTER 9 GUIDED-WAVE OPTICS
      1. 9.1 PLANAR-MIRROR WAVEGUIDES
      2. 9.2 PLANAR DIELECTRIC WAVEGUIDES
      3. 9.3 TWO-DIMENSIONAL WAVEGUIDES
      4. 9.4 OPTICAL COUPLING IN WAVEGUIDES
      5. 9.5 PHOTONIC-CRYSTAL WAVEGUIDES
      6. 9.6 PLASMONIC WAVEGUIDES
      7. READING LIST
      8. PROBLEMS
    11. CHAPTER 10 FIBER OPTICS
      1. 10.1 GUIDED RAYS
      2. 10.2 GUIDED WAVES
      3. 10.3 ATTENUATION AND DISPERSION
      4. 10.4 HOLEY AND PHOTONIC-CRYSTAL FIBERS
      5. 10.5 FIBER MATERIALS
      6. READING LIST
      7. PROBLEMS
      8. Notes
    12. CHAPTER 11 RESONATOR OPTICS
      1. 11.1 PLANAR-MIRROR RESONATORS
      2. 11.2 SPHERICAL-MIRROR RESONATORS
      3. 11.3 TWO- AND THREE-DIMENSIONAL RESONATORS
      4. 11.4 MICRORESONATORS AND NANORESONATORS
      5. READING LIST
      6. PROBLEMS
      7. Notes
    13. CHAPTER 12 STATISTICAL OPTICS
      1. 12.1 STATISTICAL PROPERTIES OF RANDOM LIGHT
      2. 12.2 INTERFERENCE OF PARTIALLY COHERENT LIGHT
      3. *12.3 TRANSMISSION OF PARTIALLY COHERENT LIGHT
      4. 12.4 PARTIAL POLARIZATION
      5. READING LIST
      6. PROBLEMS
      7. Notes
    14. CHAPTER 13 PHOTON OPTICS
      1. 13.1 THE PHOTON
      2. 13.2 PHOTON STREAMS
      3. *13.3 QUANTUM STATES OF LIGHT
      4. READING LIST
      5. PROBLEMS
      6. Notes
  6. FUNDAMENTALS OF PHOTONICS
    1. Part II: Photonics(Chapters 14–25)
    2. CHAPTER 14 LIGHT AND MATTER
      1. 14.1 ENERGY LEVELS
      2. 14.2 OCCUPATION OF ENERGY LEVELS
      3. 14.3 INTERACTIONS OF PHOTONS WITH ATOMS
      4. 14.4 THERMAL LIGHT
      5. 14.5 LUMINESCENCE AND SCATTERING
      6. READING LIST
      7. PROBLEMS
      8. Notes
    3. CHAPTER 15 LASER AMPLIFIERS
      1. 15.1 THEORY OF LASER AMPLIFICATION
      2. 15.2 AMPLIFIER PUMPING
      3. 15.3 REPRESENTATIVE LASER AMPLIFIERS
      4. 15.4 AMPLIFIER NONLINEARITY
      5. *15.5 AMPLIFIER NOISE
      6. READING LIST
      7. PROBLEMS
      8. Note
    4. CHAPTER 16 LASERS
      1. 16.1 THEORY OF LASER OSCILLATION
      2. 16.2 CHARACTERISTICS OF THE LASER OUTPUT
      3. 16.3 TYPES OF LASERS
      4. 16.4 PULSED LASERS
      5. READING LIST
      6. PROBLEMS
      7. Notes
    5. CHAPTER 17 SEMICONDUCTOR OPTICS
      1. 17.1 SEMICONDUCTORS
      2. 17.2 INTERACTIONS OF PHOTONS WITH CHARGE CARRIERS
      3. READING LIST
      4. PROBLEMS
      5. Note
    6. CHAPTER 18 LEDS AND LASER DIODES
      1. 18.1 LIGHT-EMITTING DIODES
      2. B. LED Characteristics
      3. 18.2 SEMICONDUCTOR OPTICAL AMPLIFIERS
      4. 18.3 LASER DIODES
      5. 18.4 QUANTUM-CONFINED LASERS
      6. 18.5 MICROCAVITY LASERS
      7. 18.6 NANOCAVITY LASERS
      8. READING LIST
      9. PROBLEMS
    7. CHAPTER 19 PHOTODETECTORS
      1. 19.1 PHOTODETECTORS
      2. 19.2 PHOTOCONDUCTORS
      3. 19.3 PHOTODIODES
      4. 19.4 AVALANCHE PHOTODIODES
      5. 19.5 ARRAY DETECTORS
      6. 19.6 NOISE IN PHOTODETECTORS
      7. READING LIST
      8. PROBLEMS
      9. Notes
    8. CHAPTER 20 ACOUSTO-OPTICS
      1. 20.1 INTERACTION OF LIGHT AND SOUND
      2. 20.2 ACOUSTO-OPTIC DEVICES
      3. *20.3 ACOUSTO-OPTICS OF ANISOTROPIC MEDIA
      4. READING LIST
      5. PROBLEMS
    9. CHAPTER 21 ELECTRO-OPTICS
      1. 21.1 PRINCIPLES OF ELECTRO-OPTICS
      2. *21.2 ELECTRO-OPTICS OF ANISOTROPIC MEDIA
      3. 21.3 ELECTRO-OPTICS OF LIQUID CRYSTALS
      4. *21.4 PHOTOREFRACTIVITY
      5. 21.5 ELECTROABSORPTION
      6. READING LIST
      7. PROBLEMS
      8. Note
    10. CHAPTER 22 NONLINEAR OPTICS
      1. 22.1 NONLINEAR OPTICAL MEDIA
      2. 22.2 SECOND-ORDER NONLINEAR OPTICS
      3. 22.3 THIRD-ORDER NONLINEAR OPTICS
      4. *22.4 SECOND-ORDER NONLINEAR OPTICS: COUPLED WAVES
      5. *22.5 THIRD-ORDER NONLINEAR OPTICS: COUPLED WAVES
      6. *22.6 ANISOTROPIC NONLINEAR MEDIA
      7. *22.7 DISPERSIVE NONLINEAR MEDIA
      8. READING LIST
      9. PROBLEMS
      10. Notes
    11. CHAPTER 23 ULTRAFAST OPTICS
      1. 23.1 PULSE CHARACTERISTICS
      2. 23.2 PULSE SHAPING AND COMPRESSION
      3. 23.3 PULSE PROPAGATION IN OPTICAL FIBERS
      4. 23.4 ULTRAFAST LINEAR OPTICS
      5. 23.5 ULTRAFAST NONLINEAR OPTICS
      6. 23.6 PULSE DETECTION
      7. READING LIST
      8. PROBLEMS
      9. Note
    12. CHAPTER 24 OPTICAL INTERCONNECTS AND SWITCHES
      1. 24.1 OPTICAL INTERCONNECTS
      2. 24.2 PASSIVE OPTICAL ROUTERS
      3. 24.3 PHOTONIC SWITCHES
      4. 24.4 PHOTONIC LOGIC GATES
      5. READING LIST
      6. PROBLEMS
      7. Notes
    13. CHAPTER 25 OPTICAL FIBER COMMUNICATIONS
      1. 25.1 FIBER-OPTIC COMPONENTS
      2. 25.2 OPTICAL FIBER COMMUNICATION SYSTEMS
      3. 25.3 MODULATION AND MULTIPLEXING
      4. 25.4 COHERENT OPTICAL COMMUNICATIONS
      5. 25.5 FIBER-OPTIC NETWORKS
      6. READING LIST
      7. PROBLEMS
  7. APPENDIX A FOURIER TRANSFORM
    1. A.1 ONE-DIMENSIONAL FOURIER TRANSFORM
    2. A.2 TIME DURATION AND SPECTRAL WIDTH
    3. A.3 TWO-DIMENSIONAL FOURIER TRANSFORM
    4. READING LIST
  8. APPENDIX B LINEAR SYSTEMS
    1. B.1 ONE-DIMENSIONAL LINEAR SYSTEMS
    2. B.2 TWO-DIMENSIONAL LINEAR SYSTEMS
    3. READING LIST
  9. APPENDIX C MODES OF LINEAR SYSTEMS
    1. READING LIST
  10. SYMBOLS AND UNITS
  11. AUTHORS
  12. INDEX

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