Laser Processing and Chemistry [E-Book] / by Dieter Bäuerle.
Laser Processing and Chemistry gives an overview of the fundamentals and applications of laser-matter interactions, in particular with regard to laser material processing. Special attention is given to laser-induced physical and chemical processes at gas-solid, liquid-solid, and solid-solid interfac...
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Full text |
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Personal Name(s): | Bäuerle, Dieter, author |
Edition: |
Third, Revised and Enlarged Edition. |
Imprint: |
Berlin, Heidelberg :
Springer,
2000
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Physical Description: |
XX, 788 p. 163 illus., 5 illus. in color. online resource. |
Note: |
englisch |
ISBN: |
9783662040744 |
DOI: |
10.1007/978-3-662-04074-4 |
Series Title: |
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Advanced Texts in Physics
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Subject (LOC): |
- I Overview and Fundamentals
- 1 Introduction
- 2 Thermal, Photophysical, and Photochemical Processes
- 3 Reaction Kinetics and Transport of Species
- 4 Nucleation and Cluster Formation
- 5 Lasers, Experimental Aspects, Spatial Confinement
- II Temperature Distributions and Surface Melting
- 6 General Solutions of the Heat Equation
- 7 Semi-infinite Substrates
- 8 Infinite Slabs
- 9 Non-uniform Media
- 10 Surface Melting
- III Material Removal
- 11 Vaporization, Plasma Formation
- 12 Nanosecond-Laser Ablation
- 13 Ultrashort-Pulse Laser Ablation
- 14 Etching of Metals and Insulators
- 15 Etching of Semiconductors
- IV Material Deposition
- 16 Laser-CVD of Microstructures
- 17 Growth of Fibers
- 18 Direct Writing
- 19 Thin-Film Formation by Laser-CVD
- 20 Adsorbed Layers, Laser—MBE
- 21 Liquid-Phase Deposition, Electroplating
- 22 Thin-Film Formation by Pulsed-Laser Deposition and Laser-Induced Evaporation
- V Material Transformations, Synthesis and Structure Formation
- 23 Structural Transformations, Laser Cleaning
- 24 Doping
- 25 Cladding, Alloying, and Synthesis
- 26 Oxidation, Nitridation, and Reduction
- 27 Transformation and Decomposition of Organic Materials
- 28 Instabilities and Structure Formation
- VI Measurement Techniques, Diagnostics
- 29 Measurement Techniques
- 30 Analysis of Species, Plasmas, and Surfaces
- Appendices
- A Definitions and Formulas
- A.1 Symbols and Conversion Factors
- A.2 Abbreviations, Acronyms
- A.3 Mathematical Functions and Relations
- A.3.1 Bessel Function
- A.3.2 Error Function
- A.3.3 Exponential Integral Function
- A.3.4 Gamma Function
- A.3.5 Heaviside Function
- A.3.6 Jacobian Theta Function
- A.4.1 Axial Temperature Distribution for Infinite Slabs
- A.4.2 Axial Temperature Distribution for Semi-infinite Substrates
- B Tabular Presentation of the Materials Investigated
- B.1 Ablation of Inorganic Materials
- B.2 Ablation of Organic Polymers
- B.3 Materials Etching
- B.4 LCVD of Microstructures
- B.5 Thin-Film Formation by LCVD
- B.6 Deposition From Adsorbed Layers and Atomic/Molecular Beams
- B.7 Deposition from Liquids
- B.8 Formation of Thin Films and Heterostructures by PLD
- B.9 Laser Cleaning of Substrates from Particulates
- B.10 Surface Oxidation, Nitridation, and Reduction
- B.11 Transformation and Decomposition of Organic Materials, Laser Lithography
- B.12 Biological and Medical Applications
- C Tables
- References.