Download "OPTICS" by AJOY GHATAK - 3rd ed. "Tata McGraw Hill Publishing Company Limited" New Delhi.
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contents
Chapter 1. History of Optics
Chapter 2. What is Light?
PART I GEOMETRICAL OPTICS
Chapter 3. Fermat's Principle and Its Applications
Chapter 4. Refraction and Reflection by Spherical Surfaces
Chapter 5. The Matrix Method in Par axial Optics
Chapter 6. Aberrations
PART II VIBRATIONS AND WAVES
Chapter 7. Simple Harmonic Motion, Forced Vibrations and Origin of Refractive Index
Chapter 8. Fourier Series and Applications
Chapter 9. The Dirac Delta Function and Fourier Transforms
Chapter 10. Group Velocity and Pulse Dispersion
Chapter 11. Wave Propagation and the Wave Equation
Chapter 12. Huygens Principle and Its Applications
PART III INTERFERENCE
Chapter 13. Superposition of Waves
Chapter 14. Two Beam Interference by Division of Wave front
Chapter 15. Interference by Division of Amplitude
Chapter 17. Coherence
PART IV DIFFRACTION
Chapter 18. Fraunhofer Diffraction: I
Chapter 19. Fraunhofer Diffraction: II and Fourier Optics
Chapter 20. Fresnel Diffraction
Chapter 21. Holography
PART V ELECTROMAGNETIC CHARACTER OF LIGHT
Chapter 22. Polarization and Double Refraction
Chapter 23. Electromagnetic Waves
Chapter 24. Reflection and Refraction of Electromagnetic Waves
PART VI PHOTONS
Chapter 25. The Particle Nature of Radiation
PART VII LASERS & FIBER OPTICS
Chapter 26. Lasers: An Introduction
Chapter 27. Fiber Optics I: Basic Concepts and Ray Optics Considerations
Chapter 28. Fiber Optics II: Basic Wave-guide Theory and Concept of Modes
Chapter 29. Fiber Optics III: Single Mode Fibers
Appendix A: Gamma Functions and Integrals Involving Gaussian Functions
Appendix B: Evaluation of the Integral
Appendix C: Diffraction of a Gaussian Beam
Appendix D: TE and TM Modes in Planar Wave-guides
Chapter 2. What is Light?
PART I GEOMETRICAL OPTICS
Chapter 3. Fermat's Principle and Its Applications
Chapter 4. Refraction and Reflection by Spherical Surfaces
Chapter 5. The Matrix Method in Par axial Optics
Chapter 6. Aberrations
PART II VIBRATIONS AND WAVES
Chapter 7. Simple Harmonic Motion, Forced Vibrations and Origin of Refractive Index
Chapter 8. Fourier Series and Applications
Chapter 9. The Dirac Delta Function and Fourier Transforms
Chapter 10. Group Velocity and Pulse Dispersion
Chapter 11. Wave Propagation and the Wave Equation
Chapter 12. Huygens Principle and Its Applications
PART III INTERFERENCE
Chapter 13. Superposition of Waves
Chapter 14. Two Beam Interference by Division of Wave front
Chapter 15. Interference by Division of Amplitude
Chapter 17. Coherence
PART IV DIFFRACTION
Chapter 18. Fraunhofer Diffraction: I
Chapter 19. Fraunhofer Diffraction: II and Fourier Optics
Chapter 20. Fresnel Diffraction
Chapter 21. Holography
PART V ELECTROMAGNETIC CHARACTER OF LIGHT
Chapter 22. Polarization and Double Refraction
Chapter 23. Electromagnetic Waves
Chapter 24. Reflection and Refraction of Electromagnetic Waves
PART VI PHOTONS
Chapter 25. The Particle Nature of Radiation
PART VII LASERS & FIBER OPTICS
Chapter 26. Lasers: An Introduction
Chapter 27. Fiber Optics I: Basic Concepts and Ray Optics Considerations
Chapter 28. Fiber Optics II: Basic Wave-guide Theory and Concept of Modes
Chapter 29. Fiber Optics III: Single Mode Fibers
Appendix A: Gamma Functions and Integrals Involving Gaussian Functions
Appendix B: Evaluation of the Integral
Appendix C: Diffraction of a Gaussian Beam
Appendix D: TE and TM Modes in Planar Wave-guides
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