Buch, Englisch, 2752 Seiten, Format (B × H): 203 mm x 324 mm, Gewicht: 6123 g
Buch, Englisch, 2752 Seiten, Format (B × H): 203 mm x 324 mm, Gewicht: 6123 g
Reihe: Handbook of Laser Technology and Applications
ISBN: 978-0-7503-0607-2
Verlag: CRC Press
Zielgruppe
Scientists, engineers, students involved in using or designing lasers and laser systems
Fachgebiete
Weitere Infos & Material
VOLUME 1: PRINCIPLES.Foreword.A Principles.A/1 Basic laser principles.A/2/1 Laser resonators.A/2/2 Waveguide resonators.A/3 Laser beam control.A/4 Nonlinear optics.A/5 Interferometry and Polarisation.A/6 Waveguide theory.A/7 Optical detection and noise.A/8 Numerical Modeling.VOLUME 2: LASER DESIGN AND LASER SYSTEMS.B Laser Design, Fabrication and Properties.B/1 Solid State Lasers.B/1/1 Transition Metal Ion Lasers - Cr3+.B/1/2 Transition Metal Ion Lasers Other Than Cr3+.B/1/3 Rare Earth Ion Lasers - Nd3+.B/1/4 Rare Earth Ion Lasers - Near Infrared.B/1/5 Rare Earth Ions Lasers - Miscellaneous: Ce3+, U3+, divalent, etc.B/1/6 Lasers Based on Nonlinear Effects.B/1/7 Solid State Raman Lasers.B/1/8 Color Center Lasers.B/2 Semiconductor/diode lasers.B/2/1 Basic principles of laser diodes.B/2/2 Spectral control in laser diodes.B/2/3 High speed laser diodes.B/2/4 High power laser diodes and laser diode arrays.B/2/5/1 Visible laser diodes: Properties of III-V red emitting laser diodes.B/2/5/2 Visible laser diodes: Properties of Blue Laser Diodes.B/2/6 Vertical cavity surface emitting lasers.B/2/7 Long wavelength laser diodes.B/2/8 Diode lasers for switching and signal processing.B/3 Gas lasers.B/3/1 CW CO2, CO and N2O; and TEA CO2 lasers.B/3/2 Excimer, F2, H2 and N2 lasers.B/3/3 Copper and gold vapor lasers.B/3/4/1 Chemical lasers: COIL.B/3/4/2 Chemical lasers: HF/DF.B/3/5 Ar+ laser.B/3/6 He-Ne laser.B/3/7 He-Cd laser.B/3/8 Optically pumped mid IR lasers: NH3, C2H2.B/3/9 Far-IR lasers: HCN, H2O.B/4 Fiber and waveguide lasers.B/4/1 Fiber Lasers.B/4/2 High Power Fiber Lasers.B/4/3 DFBG Fiber Raman Lasers.B/4/4 Soliton lasers.B/4/5 Erbium and other doped fiber amplifiers.B/4/6 High power waveguide lasers.B/5 Other lasers.B/5/1 Free electron lasers.B/5/2 X-ray lasers.B/5/3 Liquid organic dye lasers.B/5/4 Solid organic dye lasers.C Laser System Design.C/1 Components.C/1/1 Optical components.C/1/2 Optical control elements.C/1/3 Adaptive optics and phase conjugate reflectors.C/1/4 Opto-mechanical parts.C/1/5/1 Power conditioning: Supplies for driving diodes (semiconductor lasers).C/1/5/2 Power conditioning: Supplies for driving gas discharges (gas and solid state lasers).C/1/5/3 Power conditioning: Supplies for driving flash tubes and arc lamps for solid state lasers.C/2 Optical pulse generation.C/2/1 Quasi-CW and modulated beams.C/2/2 Short pulses.C/2/3 Ultrashort pulses.C/3 Frequency conversion and filtering.C/3/1 Harmonic generation - materials and methods.C/3/2 Optical parametric oscillators and amplifiers.C/3/3 Laser stabilisation for precision measurements.C/4 Beam delivery systems.C/4/1 Basic principles.C/4/2 Free space optics.C/4/3 Fiber optic beam delivery.C/4/4 Positioning and scanning systems.C/5 Laser beam characterisation and measurement.C/5/1 Beam propagation parameters.C/5/2 Detectors.C/5/3 Power and energy measurement.C/5/4 Irradiance and phase distribution measurement.C/6 Laser safety: Introduction.C/6 Laser safety.VOLUME 3: Applications.D Applications: Case Studies.D/1 Materials Processing.D/1 Introduction.D/1/1 Welding.D/1/2 Cutting.D/1/3 Marking.D/1/4 Drilling.D/1/5 Photolithography.D/1/6 Micromachining.D/1/7 Rapid Manufacturing.D/1/8 Deposition of thin films.D/2 Optical Measurement Techniques.D/2 Introduction.D/2/1 Fundamental length metrology.D/2/2 Laser velocimetry.D/2/3 Laser vibrometers.D/2/4 Electronic speckle pattern interferometry (ESPI).D/2/5 Optical fibre hydrophones.D/2/6 Optical fibre Bragg grating sensors for strain measurement.D/2/7 High speed imaging.D/2/8 Particle sizing.D/3 Medical.D/3 Introduction.D/3/1 Light-Tissue Interactions.D/3/2 Therapeutic Applications: Introduction.D/3/2/1 Therapeutic Applications: Opthalmology.D/3/2/2 Therapeutic Applications: Refractive Surgery.D/3/2/3 Therapeutic Applications: Photodynamic Therapy.D/3/2/4 Therapeutic Applications: Tumour Therapy.D/3/2/5 Therapeutic Applications: Dermatology.D/3/2/6 Therapeutic Applications: Lasers in Vascular Surgery.D/3/2/7 Therapeutic Applications: Hardtissue/Dentistry.D/3/2/8 Therapeutic Applications: Free-Electron Laser.D/3/3 Diagnostic Applications.D/3/4 Applications in Biology and Biotechnology.D/3/5 Laser Safety.D/4 Communications.D/4 Introduction.D/4/1 Basic point to point communications system.D/4/2 Long haul systems.D/4/3 Local area networks.D/4/4 Fibre to board/chip.D/4/5 Optical satellite communications.D/4/6 Smart Pixel Technologies and Optical Interconnects.D/5 Information storage.D/5 Introduction.D/5/1 Optical data storage.D/5/2 Lasers in printing.D/6 Spectroscopy.D/6 Introduction.D/6/1 Laser cooling and trapping.D/6/2 Ion trapping and laser applications to length and time metrology.D/6/3 Time resolved spectroscopy.D/7 Earth and environmental sciences.D/7 Introduction.D/7/1 Satellite laser ranging.D/7/2 Lidar for atmospheric remote sensing.D/8 Introduction.D/8/1 Lasers in Astronomy.D/9 Introduction.D/9/1 Holographic optical elements and computer generated holography.D/10 Plasmas.D/10/1 High Power Lasers for Plasma Physics.D/10/2 High-power lasers and the extreme conditions that they can produce.