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Introduction to the Physics of Lasers book cover

1st Edition

Introduction to the Physics of Lasers

By Surendra Singh Copyright 2027
458 Pages 176 B/W Illustrations
by CRC Press

This textbook provides an accessible introduction to laser physics, exploring three key questions: what is special about laser light, what is the physics underlying laser light generation and how it can be used to manipulate laser light. The material is presented in a manner that helps the reader develop an understanding of the underlying physics principles and processes without getting bogged... Read more

1. Laser Light                

2, Maxwell’s Equations, Waves, and Rays                         

3. Paraxial Beam Solutions of Wave Equation                                     

4. Laser Resonators                                                                                                                                       

5.  Electron Oscillator Model of Light-Matter Interaction                            

6. Quantum Mechanics of Atomic Response                     

7. Population Inversion, Saturation, and Laser Systems                         

8. Laser Threshold and Oscillations                                                         

9. Buildup of Oscillations and Quantum Statistics of Laser Light           

10. Laser Transients and Q-switched Operation                                           

11. Mode-locking and Short Pulse Generation in Lasers                         

12. Nonlinear Optics                                                                               

 

 

 

Biography

Surendra Singh received B.Sc. (Honors) and M.Sc. degrees in Nuclear Physics from Bananas Hindu University, India, where he was awarded the Chancellor’s Gold Medal (1973) and Ph.D. in Quantum Optics from the University of Rochester, USA, working under the mentorship of Professor Leonard Mandel. His Ph.D. Thesis was awarded the Dexter Prize for Outstanding Physics Thesis. After finishing his Ph.D., he joined the University of Arkansas in 1982 as an assistant professor of physics where he is currently University Professor of Physics. He was a Visiting Fellow of JILA in Professor John Hall’s lab and has held honorary visiting professorships at IITMadras, India and University of Ulm, Germany. The author has taught a wide spectrum of courses ranging from large enrollment introductory physics courses to advanced graduate level courses in electrodynamics, quantum mechanics, laser physics, classical, quantum and nonlinear optics and developed lab-based courses in lasers and optics. He has also co-authored a graduate-level textbook on quantum mechanics. His research has made experimental and theoretical contributions to advancing the knowledge of quantum and classical noise in lasers and nonlinear optical systems and phase and polarization properties of laser beams. The author served as Chair of the Physics Department at the University of Arkansas for thirteen years. The department made multifaceted progress during his tenure as department chair. He is a Fellow of the American Physical Society and was designated an Outstanding Referee by the APS journals.

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