Lasers is both a textbook and a general reference book with an emphasis on basic laser principles and theory. Lasers is both a textbook and a general reference book with an emphasis on basic laser principles and theory. A unique feature is that it gives a complete, detailed, and accurate treatment of laser physics, building only on classical models, without requiring the reader to have a quantum mechanical background. It is for all scientists and engineers who work with lasers.
Lasers is both a textbook and a general reference book with an emphasis on basic laser principles and theory. Lasers is both a textbook and a general reference book with an emphasis on basic laser principles and theory. A unique feature is that it gives a complete, detailed, and accurate treatment of laser physics, building only on classical models, without requiring the reader to have a quantum mechanical background. It is for all scientists and engineers who work with lasers.
1. An Introduction to Lasers 2. Stimulated Transitions: The Classical Oscillator Model 3. Electric Dipole Transitions in Real Atoms 4. Atomic Rate Equations 5. The Rabi Frequency 6. Laser Pumping and Population Inversion 7. Laser Amplification 8. More on Laser Amplification 9. Linear Pulse Propagation 10. Nonlinear Optical Pulse Propagation 11. Laser Mirrors and Regenerative Feedback 12. Fundamentals of Laser Oscillation 13. Oscillation Dynamics and Oscillation Threshold 14. Optical Beams and Resonators: An Introduction 15. Ray Optics and Ray Matrices 16. Wave Optics and Gaussian Beams 17. Physical Properties of Gaussian Beams 18. Beam Perturbation and Diffraction 19. Stable Two-Mirror Resonators 20. Complex Paraxial Wave Optics 21. Generalized Paraxial Resonator Theory 22. Unstable Optical Resonators 24. Laser Dynamics: The Laser Cavity Equations 25. Laser Spiking and Mode Competition 26. Laser Q-switching 27. Active Laser Mode Coupling 28. Passive Mode Locking 29. Laser Injection Locking 30. Hole Burning and Saturation Spectroscopy 31. Magnetic-Dipole Transitions Index
1. An Introduction to Lasers 2. Stimulated Transitions: The Classical Oscillator Model 3. Electric Dipole Transitions in Real Atoms 4. Atomic Rate Equations 5. The Rabi Frequency 6. Laser Pumping and Population Inversion 7. Laser Amplification 8. More on Laser Amplification 9. Linear Pulse Propagation 10. Nonlinear Optical Pulse Propagation 11. Laser Mirrors and Regenerative Feedback 12. Fundamentals of Laser Oscillation 13. Oscillation Dynamics and Oscillation Threshold 14. Optical Beams and Resonators: An Introduction 15. Ray Optics and Ray Matrices 16. Wave Optics and Gaussian Beams 17. Physical Properties of Gaussian Beams 18. Beam Perturbation and Diffraction 19. Stable Two-Mirror Resonators 20. Complex Paraxial Wave Optics 21. Generalized Paraxial Resonator Theory 22. Unstable Optical Resonators 24. Laser Dynamics: The Laser Cavity Equations 25. Laser Spiking and Mode Competition 26. Laser Q-switching 27. Active Laser Mode Coupling 28. Passive Mode Locking 29. Laser Injection Locking 30. Hole Burning and Saturation Spectroscopy 31. Magnetic-Dipole Transitions Index
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