Tunable Laser Optics (2^nd Ed.)

Broadly tunable lasers have had, and continue to have, an enormous impact in many and diverse fields of science and technology. From a renaissance in spectroscopy to laser guide stars and laser cooling, the nexus is the tunable laser.

Tunable Laser Optics offers a transparent and comprehensive treatment of the physics of tunable laser optics based on a detailed description of first principles. Authored by a leading expert in the field, the book covers the optics and optical principles needed to build lasers, the optics instrumentation necessary to characterize laser emission, and laser-based optical instrumentation, addressing key topics such as Dirac?s notation, the interferometric equation, the uncertainty principle, pulse compression, and tunable narrow-linewidth lasers.

This revised, expanded, and improved Second Edition:

• Contains new and additional material on tunable lasers and quantum optics
• Explains the first principles of tunable laser optics in a clear and concise manner
• Presents an explicit exposition of the relevant theory, without the use of short cuts
• Employs numerous examples, case studies, and figures to illustrate important concepts
• Includes carefully designed problems of direct practical significance to stimulate application

Emphasizing the utilitarian aspects of the optics and theory, Tunable Laser Optics, Second Edition provides valuable insight into the optics and the trade-offs involved in the design and construction of tunable lasers and optical devices. It makes an ideal textbook for advanced undergraduate-level and graduate-level optics courses for physics and engineering students, as well as a handy reference for researchers and experimentalists.

Introduction to Lasers. Dirac Optics. The Uncertainty Principle in Optics. The Physics of Multiple-Prism Optics. Polarization. Laser Beam Propagation Matrices. Narrow-Linewidth Tunable Laser Oscillators. Nonlinear Optics. Lasers and Their Emission Characteristics. The N-Slit Laser Interferometer: Optical Architecture and Applications. Interferometry. Spectrometry. Physical Constants and Optical Quantities.

F. J. Duarte is a research physicist with Interferometric Optics, Rochester, New York, USA, and an adjunct professor at the University of New Mexico, USA. His career as a laser physicist encompasses academia, industry, and the defense establishment. He holds a Ph.D in physics from Macquarie University, Sydney, Australia, where he was a student of the well-known quantum physicist J. C. Ward. Dr. Duarte is the author of the generalized multiple-prism dispersion theory, has made unique contributions to the physics and architecture of tunable laser oscillators, and pioneered the use of Dirac’s quantum notation in interferometry, oscillator physics, and classical optics.