Description
Solid-State Lasers and Applications
Coordinator: Sennaroglu Alphan
Language: EnglishSubject for Solid-State Lasers and Applications:
Keywords
Saturable Absorber; precision metrology; Nonsequential Double Ionization; spectroscopy; Gain Medium; solid-state laser systems; Optical Parametric Chirped Pulse Amplification; micromachining; Mode Locking; Pulse Energy; Solid State Laser; Cep; SESAMs; Passive Mode Locking; Phase Noise; Cavity Round Trip; Saturation Fluence; Quasi-three Level Laser; Femtosecond Lasers; Microchip Lasers; SPM; OC; Laser Cavity; Pump Power; Crystal Field Level; BBO Crystal; CW Mode; Tunable Solid State Lasers; Fluorescence Lifetime
Publication date: 09-2019
· 15.6x23.4 cm · Paperback
Publication date: 11-2006
350 p. · 15.6x23.4 cm · Hardback
Description
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Because of the favorable characteristics of solid-state lasers, they have become the preferred candidates for a wide range of applications in science and technology, including spectroscopy, atmospheric monitoring, micromachining, and precision metrology. Presenting the most recent developments in the field, Solid-State Lasers and Applications focuses on the design and applications of solid-state laser systems.
With contributions from leading international experts, the book explores the latest research results and applications of solid-state lasers as well as various laser systems. The beginning chapters discuss current developments and applications of new solid-state gain media in different wavelength regions, including cerium-doped lasers in the ultraviolet range, ytterbium lasers near 1µm, rare-earth ion-doped lasers in the eye-safe region, and tunable Cr2+:ZnSe lasers in the mid-infrared range. The remaining chapters study specific modes of operation of solid-state laser systems, such as pulsed microchip lasers, high-power neodymium lasers, ultrafast solid-state lasers, amplification of femtosecond pulses with optical parametric amplifiers, and noise characteristics of solid-state lasers.
Solid-State Lasers and Applications covers the most important aspects of the field to provide current, comprehensive coverage of solid-state lasers.