Optics, Light and Lasers

Dieses Buch ist genau richtig für Einsteiger in das Fachgebiet. Schwierige Effekte werden direkt und leicht verständlich präsentiert. Diese aktualisierte, erweiterte Auflage bietet neue Kapitel zu neuen Themen wie Plasmonik, Frequenzkämme auf Femto-Ebene und Quantenkaskadenlaser

1 Light rays. 1.1 Light rays in human experience. 1.2 Ray optics. 1.3 Reflection. 1.4 Refraction. 1.5 Fermat's principle: the optical path length. 1.6 Prisms. 1.7 Light rays in wave guides. 1.8 Lenses and curved mirrors. *1.9. Autofocus 1.10 Matrix optics. 1.11 Ray optics and particle optics. Problems for chapter 1. 2 Wave optics. 2.1 Electromagnetic radiation fields. 2.2 Wave types. 2.3 Gaussian beams.Add: Collins integral*2.3. Beyond Gaussian Beams2.4 Polarization. 2.5 Diffraction. Problems for chapter 2. 3 Light propagation in matter. 3.1 Dielectric interfaces. 3.2 Complex refractive index. 3.3 Optical wave guides and fibres. 3.4 Functional types and applications of optical fibres. 3.6 Photonic materials. *NEW: Nano-Optis and Plasmonics3.7 Light pulses in dispersive materials. 3.8 Anisotropic optical materials. 3.9 Optical modulators. Problems for chapter 3. 4 Optical images. 4.1 The human eye. 4.2 Magnifying glass and eyepiece. 4.3 Microscopes. 4.4 Telescopes. 4.5 Lenses: designs and aberrations. *4.6. Aspherical lensesProblems for chapter 4. 5 Coherence and interferometry. 5.1 Young's double slit. 5.2 Coherence and correlation. 5.3 The double-slit experiment. 5.4 Michelson interferometer: longitudinal coherence. 5.5 Fabry-Perot interferometer. 5.6 Optical cavities. *update: Microresonators5.7 Thin optical films. 5.8 Holography. 5.9 Laser speckle (laser granulation). Problems for chapter 5. 6 Light and matter. 6.1 Classical radiation interaction. 6.2 Two-level atoms. 6.3 Stimulated and spontaneous radiation processes. 6.4 Inversion and amplification. Problems for chapter 6. 7 The laser. 7.1 The classic system: the He-Ne laser. 7.2 Mode selection in the He-Ne laser. 7.3 Spectral properties of the He-Ne laser. 7.4 Applications of the He-Ne laser. 7.5 Other gas lasers. 7.6 Molecular gas lasers. 7.7 The workhorses: solid-state lasers. 7.8 Selected solid-state lasers. 7.9 Tunable lasers with vibronic states. 7.10 Tunable ring lasers. Problems for chapter 7. 8 Laser dynamics. 8.1 Basic laser theory. 8.2 Laser rate equations. 8.3 Threshold-less lasers and micro-lasers. 8.4 Laser noise. 8.5 Pulsed lasers. *8.6. FemtocombsProblems for chapter 8. 9 Semiconductor lasers. 9.1 Semiconductors. 9.2 Optical properties of semiconductors. 9.3 The heterostructure laser. 9.4 Dynamic properties of semiconductor lasers. 9.5 Laser diodes, diode lasers, laser systems. 9.6 High-power laser diodes. *9.7 Quantum Cascade lasers + updateProblems for chapter 9. 10 Sensors for light. 10.1 Characteristics of optical detectors. 10.2 Fluctuating opto-electronic quantities. 10.3 Photon noise and detectivity limits. 10.4 Thermal detectors. 10.5 Quantum sensors I: photomultiplier tubes. 10.6 Quantum sensors II: semiconductor sensors. 10.7 Position and image sensors. 10.8. Superconducting detectorsProblems for chapter 10. 11 Laser spectroscopy. 11.1 Laser-induced fluorescence (LIF). 11.2 Absorption and dispersion. 11.3 The width of spectral lines. 11.4 Doppler-free spectroscopy. 11.5 Transient phenomena. 11.6 Light forces. 11.7. Remote Sensing, Trace gases, etc.Problems for chapter 11. 12 Photons - an introduction to quantum optics. 12.1 Does light exhibit quantum character? 12.2 Quantization of the electromagnetic field. 12.3 Spontaneous emission. 12.4 Weak coupling and strong coupling. 12.5 Resonance fluorescence. 12.6 Light fields in quantum optics. 12.7 Two-photon optics. 12.8 Entangled photons.*12.9 Quantum Communication Problems for chapter 12. 13 Nonlinear optics I: optical mixing processes. 13.1 Charged anharmonic oscillators. 13.2 Second-order nonlinear susceptibility. 13.3 Wave propagation in nonlinear media. 13.4 Frequency doubling. 13.5 Sum and difference frequency. 13.6 Optical parametric oscillators. Problems for chapter 13. 14 Nonlinear optics II: four-wave mixing. 14.1 Frequency tripling in gases. 14.2 Nonlinear refrac