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Laser processing of engineering materials [[electronic resource] ] : principles, procedure and industrial application / / John C. Ion
| Laser processing of engineering materials [[electronic resource] ] : principles, procedure and industrial application / / John C. Ion |
| Autore | Ion John C |
| Pubbl/distr/stampa | Amsterdam, : Elsevier/Butterworth-Heinemann, 2005 |
| Descrizione fisica | 1 online resource (589 p.) |
| Disciplina | 621.366 |
| Soggetto topico |
Lasers - Industrial applications
Photonics |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-281-00627-0
9786611006273 1-4294-7843-8 0-08-049280-0 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
COVER; LASER PROCESSING OF ENGINEERING MATERIALS; CONTENTS; FOREWORD; PREFACE; ACKNOWLEDGEMENTS; PROLOGUE; 1 INTRODUCTION; INTRODUCTION AND SYNOPSIS; THE LASER - AN INNOVATIVE MACHINE TOOL; LASERS IN MATERIAL PROCESSING; IN THE HOME; IN HEALTHCARE; IN MANUFACTURING; IN THE ARTS; SUMMARY AND CONCLUSIONS; 2 EVOLUTION OF LASER MATERIAL PROCESSING; INTRODUCTION AND SYNOPSIS; FOUNDATIONS; THE NATURE OF LIGHT AND MATTER; DEVELOPMENT OF THE MASER; PRINCIPLES OF THE LASER; THE 1960's; THE FIRST LASER; THE LASER RUSH; THE FIRST PROCESSES; THE 1970's; LASERS; SYSTEMS AND PROCESSES; THE 1980's; LASERS
FLEXIBLE MANUFACTURING SYSTEMSTHE 1990's; LASERS; TURNKEY PROCESSING SYSTEMS; THE NEW MILLENNIUM; LASERS; PROCESSES; SUMMARY AND CONCLUSIONS; FURTHER READING; BIBLIOGRAPHY; 3 LASERS; INTRODUCTION AND SYNOPSIS; GENERATION OF LASER LIGHT; ENERGY LEVELS; Energy Level Notations; Distribution of Energy; Population Inversion; EXCITATION; Energy Level Transitions; LIGHT AMPLIFICATION; OUTPUT; Efficiency; CONSTRUCTION AND OPERATION OF COMMERCIAL LASERS; Active Media; Gases; Liquids; Insulating Solids; Semiconductors; Excitation; Electrical Pumping; Optical Pumping; Chemical Pumping; Optical Cavity Stability of the Optical Cavity Resonator Support; Output Devices; OUTPUT; Spatial Mode; Cylindrical Symmetry; Rectangular Symmetry; Fresnel Number; Temporal Mode; Q-switching; Cavity Dumping; Mode Locking; Chirping; Frequency Multiplication; Raman Effect; Propagation; Waist; Focused Spot Size; Rayleigh Length; Radius of Curvature; Fields; Divergence; Quality; Bandwidth; Coherence; Brightness; Intensity; Polarization; LASERS FOR MATERIAL PROCESSING; ATOMS; Helium-Neon; Iodine; Free Electron; Xenon; MOLECULES; Carbon Dioxide; Sealed; Transversely Excited Atmospheric Pressure; Slow Axial Flow Fast Axial Flow Transverse Flow; Gas Dynamic; Carbon Monoxide; Hydrogen Fluoride; Deuterium Fluoride; Hydrogen Chloride; Nitrogen; Organic; IONS; Argon; Krypton; Argon-Krypton; Xenon; Copper Vapour; Gold Vapour; Helium-Cadmium; Helium-Selenium; X-ray; EXCIMERS; Argon Fluoride; Krypton Fluoride; Xenon Chloride; Xenon Fluoride; Fluorine; Xenon; Xenon Bromide; LIQUIDS; Rhodamine; Coumarin; SOLIDS; Nd:YAG; Nd:glass; Ruby; Alexandrite; Ti: sapphire; Diode-pumped Solid State; Nd:YAG; Er:YAG; Er:YLF; Ho:YAG and Ho:YLF; Yb:YAG; Nd:YLF; Nd:YAP; Nd:GGG; Tm:YAG; Colour Centre; SEMICONDUCTORS; GaAs; InGaAs InGaAlAsGaN; Lead Salt; SUMMARY AND CONCLUSIONS; FURTHER READING; 4 SYSTEMS FOR MATERIAL PROCESSING; INTRODUCTION AND SYNOPSIS; OPTICS; OPTICAL TERMINOLOGY; Focal Length; Focal Number; Beam Diameter at Focus; Depth of Focus; TRANSMISSIVE OPTICS; Materials; Coatings; Beam Splitters; LENS PARAMETERS; Plano-convex Lens; Positive Meniscus Lens; Aspheric Lens; Polarizers; Beam Collimators; Axicon Lens; Beam Integrator; Fibreoptics; Line Focus; Aberrations; REFLECTIVE OPTICS; Materials; Coatings; Beam Turning Mirrors; Beam Splitting Mirrors; Spherical Mirrors; Paraboloidal Mirrors Deformable Mirrors |
| Record Nr. | UNINA-9910457072103321 |
Ion John C
|
||
| Amsterdam, : Elsevier/Butterworth-Heinemann, 2005 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Laser processing of engineering materials [[electronic resource] ] : principles, procedure and industrial application / / John C. Ion
| Laser processing of engineering materials [[electronic resource] ] : principles, procedure and industrial application / / John C. Ion |
| Autore | Ion John C |
| Pubbl/distr/stampa | Amsterdam, : Elsevier/Butterworth-Heinemann, 2005 |
| Descrizione fisica | 1 online resource (589 p.) |
| Disciplina | 621.366 |
| Soggetto topico |
Lasers - Industrial applications
Photonics |
| ISBN |
1-281-00627-0
9786611006273 1-4294-7843-8 0-08-049280-0 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
COVER; LASER PROCESSING OF ENGINEERING MATERIALS; CONTENTS; FOREWORD; PREFACE; ACKNOWLEDGEMENTS; PROLOGUE; 1 INTRODUCTION; INTRODUCTION AND SYNOPSIS; THE LASER - AN INNOVATIVE MACHINE TOOL; LASERS IN MATERIAL PROCESSING; IN THE HOME; IN HEALTHCARE; IN MANUFACTURING; IN THE ARTS; SUMMARY AND CONCLUSIONS; 2 EVOLUTION OF LASER MATERIAL PROCESSING; INTRODUCTION AND SYNOPSIS; FOUNDATIONS; THE NATURE OF LIGHT AND MATTER; DEVELOPMENT OF THE MASER; PRINCIPLES OF THE LASER; THE 1960's; THE FIRST LASER; THE LASER RUSH; THE FIRST PROCESSES; THE 1970's; LASERS; SYSTEMS AND PROCESSES; THE 1980's; LASERS
FLEXIBLE MANUFACTURING SYSTEMSTHE 1990's; LASERS; TURNKEY PROCESSING SYSTEMS; THE NEW MILLENNIUM; LASERS; PROCESSES; SUMMARY AND CONCLUSIONS; FURTHER READING; BIBLIOGRAPHY; 3 LASERS; INTRODUCTION AND SYNOPSIS; GENERATION OF LASER LIGHT; ENERGY LEVELS; Energy Level Notations; Distribution of Energy; Population Inversion; EXCITATION; Energy Level Transitions; LIGHT AMPLIFICATION; OUTPUT; Efficiency; CONSTRUCTION AND OPERATION OF COMMERCIAL LASERS; Active Media; Gases; Liquids; Insulating Solids; Semiconductors; Excitation; Electrical Pumping; Optical Pumping; Chemical Pumping; Optical Cavity Stability of the Optical Cavity Resonator Support; Output Devices; OUTPUT; Spatial Mode; Cylindrical Symmetry; Rectangular Symmetry; Fresnel Number; Temporal Mode; Q-switching; Cavity Dumping; Mode Locking; Chirping; Frequency Multiplication; Raman Effect; Propagation; Waist; Focused Spot Size; Rayleigh Length; Radius of Curvature; Fields; Divergence; Quality; Bandwidth; Coherence; Brightness; Intensity; Polarization; LASERS FOR MATERIAL PROCESSING; ATOMS; Helium-Neon; Iodine; Free Electron; Xenon; MOLECULES; Carbon Dioxide; Sealed; Transversely Excited Atmospheric Pressure; Slow Axial Flow Fast Axial Flow Transverse Flow; Gas Dynamic; Carbon Monoxide; Hydrogen Fluoride; Deuterium Fluoride; Hydrogen Chloride; Nitrogen; Organic; IONS; Argon; Krypton; Argon-Krypton; Xenon; Copper Vapour; Gold Vapour; Helium-Cadmium; Helium-Selenium; X-ray; EXCIMERS; Argon Fluoride; Krypton Fluoride; Xenon Chloride; Xenon Fluoride; Fluorine; Xenon; Xenon Bromide; LIQUIDS; Rhodamine; Coumarin; SOLIDS; Nd:YAG; Nd:glass; Ruby; Alexandrite; Ti: sapphire; Diode-pumped Solid State; Nd:YAG; Er:YAG; Er:YLF; Ho:YAG and Ho:YLF; Yb:YAG; Nd:YLF; Nd:YAP; Nd:GGG; Tm:YAG; Colour Centre; SEMICONDUCTORS; GaAs; InGaAs InGaAlAsGaN; Lead Salt; SUMMARY AND CONCLUSIONS; FURTHER READING; 4 SYSTEMS FOR MATERIAL PROCESSING; INTRODUCTION AND SYNOPSIS; OPTICS; OPTICAL TERMINOLOGY; Focal Length; Focal Number; Beam Diameter at Focus; Depth of Focus; TRANSMISSIVE OPTICS; Materials; Coatings; Beam Splitters; LENS PARAMETERS; Plano-convex Lens; Positive Meniscus Lens; Aspheric Lens; Polarizers; Beam Collimators; Axicon Lens; Beam Integrator; Fibreoptics; Line Focus; Aberrations; REFLECTIVE OPTICS; Materials; Coatings; Beam Turning Mirrors; Beam Splitting Mirrors; Spherical Mirrors; Paraboloidal Mirrors Deformable Mirrors |
| Record Nr. | UNINA-9910784454703321 |
|
Ion John C
|
||
| Amsterdam, : Elsevier/Butterworth-Heinemann, 2005 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||