As a result, there has been a need in the scientific community to integrate several disciplines such as solid state physics, materials science, photophysics, and dynamic processes in solids to get a better insight into the physics and engineering of solid state lasers. This book is motivated by this need. The main purpose of this text is to provide a detailed overview and understanding of the mutual influences between the physical and dynamic processes in solids and their lasing properties.
This text provides detailed and comprehensive information about the physics of optical dynamics and energy transfer in solids and their effects on the properties of solid state lasers and laser materials. It analyzes the properties of rare-earth or transition-metal-ion-doped crystals, glasses, and ceramics, and the effect of crystal field perturbations on their spectral properties.
It describes the factors influencing the development of new laser materials and discusses the various approaches and considerations for developing new materials, including relevant data tables of basic parameters intended to help with laser design. The text discusses material issues in a manner a laser engineer can comprehend and apply easily to the design of flashlamp and diode-pumped solid state lasers.
Finally, the text also provides information about recent developments and technological advances in solid state lasers and photonics that use novel materials and techniques. Milan R. Last but not least, I would like to thank SPIE for promoting the idea of writing a book on this topic and Sharon Streams and Margaret Thayer for their valuable comments and patience. Sign In View Cart 0 Help. Share Email Print. Sample Pages.
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Solid-State Laser Engineering
Gouhier, C. Dixneuf, L. Antoni-Micollier, G. Guiraud, D. Leandro, M. Lopez-Amo, N. Traynor, and G. Kazi S. Abedin, Raja Ahmad, Anthony M.
Handbook of Solid-State Lasers - 1st Edition
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Ismail, D. Geskus, M. Dijkstra, E. Bernhardi, and M. Accumulation of distributed phase shift in distributed-feedback lasers. Zervas, Shaif-ul Alam, and Gilberto Brambilla. Ishaaya, and Seongwoo Yoo. Nonlinear pulse compression in single-mode Yb-doped hybrid fiber with high anomalous dispersion at 1. Aleshkina, M. Salganskii, D.
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LED-pumping of solid state lasers. Subfs pulse generation from a Kerr-lens mode-locked Alexandrite laser. Femtosecond Mamyshev Oscillator at nm. Thresholdless Superradiance Laser. Surface modification of Invar via polarization mixing by a femtosecond laser irradiation.
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Department of Laser Technologies
Efficient bulk and waveguide Tm:LiYF4 lasers at nm. Albalawi, M. Kochanowicz, J. Zmojda, P. Miluski, D. Dorosz, and S.
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Wang, H. Jiang, J.