Laser ablation and desorption
Author(s)
Bibliographic Information
Laser ablation and desorption
(Experimental methods in the physical sciences, v. 30)
Academic Press, c1998
Available at 27 libraries
Note
Includes bibliographical references and index
Description and Table of Contents
Description
This volume introduces the subject of laser ablation and desorption to scientists and engineers. It covers fundamental experimental and theoretical tools, models, and techniques, and introduces the most important applications. Clearly written and organized in a straightforward manner, Laser Ablation and Desorption lead the reader straight through the fundamentals of laser-surface interactions. Each chapter is self-contained and includes references to other chapters as necessary, so that readers may begin with the topic of greatest interest and follow the references to other aspects of the subject contained within the book.
Table of Contents
J.C. Miller, Introduction to Laser Desorption and Ablation. R.F. Haglund, Mechanisms of Laser Ablation. J.T. Dickinson, Low Fluence Laser Desorption and Plume Formation from Wide Bandgap Crystalline Materials.C. Grigoropoulos, Lasers, Optics, and Thermal Considerations in Ablation Experiments. R. Kelly, Gas Dynamics and the Characterization of Ablation Plumes. S. Schleberger, S. Speller, and W. Heiland, Surface Characterization. Z. Ball and R. Sauerbrey, Surface Modification with Lasers. R.E. Russo, Chemical Analysis by Laser Ablation. J.A. Carroll and R.C. Beavis, Matrix-Assisted Laser Desorption and Ionization. G. Edwards, Physical Mechanisms Governing the Ablationof Biological Tissue. D.H. Lowndes, Growth and Doping of Compound Semiconductor Films by Pulsed Laser Ablation. M. Reichling, Laser Ablation in Optical Components and Thin Films. R.F. Haglund, Industrial Applications of Laser Ablation. Subject Index.
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