| Introduction / 1: |
| Atomic Structure / 2: |
| One-Electron Systems / 2.1: |
| Alkali Atoms / 2.2: |
| Magnetic Effects / 2.3: |
| Precessional Motion / 2.3.1: |
| Spin-Orbit Interaction / 2.3.2: |
| General Many-Electron Systems / 2.4: |
| The Influence of External Fields / 2.5: |
| Magnetic Fields / 2.5.1: |
| Electric Fields / 2.5.2: |
| Hyperfine Structure / 2.6: |
| Magnetic Hyperfine Structure / 2.6.1: |
| Electric Hyperfine Structure / 2.6.2: |
| The Influence of External Fields (hfs) / 2.7: |
| Isotopic Shifts / 2.8: |
| Molecular Structure / 3: |
| Electronic Levels / 3.1: |
| Rotational Energy / 3.2: |
| Vibrational Energy / 3.3: |
| Polyatomic Molecules / 3.4: |
| Clusters / 3.5: |
| Other Molecular Structures / 3.6: |
| Radiation and Scattering Processes / 4: |
| Resonance Radiation / 4.1: |
| Spectra Generated by Dipole Transitions / 4.2: |
| Atoms / 4.2.1: |
| Molecules / 4.2.2: |
| Rayleigh and Raman Scattering / 4.3: |
| Raman Spectra / 4.4: |
| Vibrational Raman Spectra / 4.4.1: |
| Rotational Raman Spectra / 4.4.2: |
| Vibrational-Rotational Raman Spectra / 4.4.3: |
| Mie Scattering / 4.5: |
| Atmospheric Scattering Phenomena / 4.6: |
| Comparison Between Different Radiation and Scattering Processes / 4.7: |
| Collision-Induced Processes / 4.8: |
| Spectroscopy of Inner Electrons / 5: |
| X-Ray Spectroscopy / 5.1: |
| X-Ray Emission Spectroscopy / 5.1.1: |
| X-Ray Absorption Spectroscopy / 5.1.2: |
| X-Ray Imaging Applications / 5.1.3: |
| Photoelectron Spectroscopy / 5.2: |
| XPS Techniques and Results / 5.2.1: |
| Chemical Shifts / 5.2.2: |
| Auger Electron Spectroscopy / 5.3: |
| Optical Spectroscopy / 6: |
| Light Sources / 6.1: |
| Line Light Sources / 6.1.1: |
| Continuum Light Sources / 6.1.2: |
| Synchrotron Radiation / 6.1.3: |
| Natural Radiation Sources / 6.1.4: |
| Spectral Resolution Instruments / 6.2: |
| Prism Spectrometers / 6.2.1: |
| Grating Spectrometers / 6.2.2: |
| The Fabry-Pérot Interferometer / 6.2.3: |
| The Fourier Transform Spectrometer / 6.2.4: |
| Detectors / 6.3: |
| Optical Components and Materials / 6.4: |
| Interference Filters and Mirrors / 6.4.1: |
| Absorption Filters / 6.4.2: |
| Polarizers / 6.4.3: |
| Optical Materials / 6.4.4: |
| Influence of the Transmission Medium / 6.4.5: |
| Optical Methods of Chemical Analysis / 6.5: |
| The Beer-Lambert Law / 6.5.1: |
| Atomic Absorption/Emission Spectrophotometry / 6.5.2: |
| Burners, Flames, Sample Preparation and Measurements / 6.5.3: |
| Modified Methods of Atomization / 6.5.4: |
| Multi-Element Analysis / 6.5.5: |
| Molecular Spectrophotometry / 6.5.6: |
| Raman Spectroscopy / 6.5.7: |
| Optical Remote Sensing / 6.6: |
| Atmospheric Monitoring with Passive Techniques / 6.6.1: |
| Land and Water Measurements with Passive Techniques / 6.6.2: |
| Astrophysical Spectroscopy / 6.7: |
| Radio-Frequency Spectroscopy / 7: |
| Resonance Methods / 7.1: |
| Magnetic Resonance / 7.1.1: |
| Atomic-Beam Magnetic Resonance / 7.1.2: |
| Optical Pumping / 7.1.3: |
| Optical Double Resonance / 7.1.4: |
| Level-Crossing Spectroscopy / 7.1.5: |
| Resonance Methods for Liquids and Solids / 7.1.6: |
| Microwave Radiometry / 7.2: |
| Radio Astronomy / 7.3: |
| Lasers / 8: |
| Basic Principles / 8.1: |
| Coherence / 8.2: |
| Resonators and Mode Structure / 8.3: |
| Fixed-Frequency Lasers / 8.4: |
| The Ruby Laser / 8.4.1: |
| Four-Level Lasers / 8.4.2: |
| Pulsed Gas Lasers / 8.4.3: |
| The He-Ne Laser / 8.4.4: |
| Gaseous Ion Lasers / 8.4.5: |
| Tunable Lasers / 8.5: |
| Dye Lasers / 8.5.1: |
| Colour-Centre Lasers / 8.5.2: |
| Tunable Solid-State Lasers / 8.5.3: |
| Tunable CO2 Lasers / 8.5.4: |
| Semiconductor Lasers / 8.5.5: |
| Nonlinear Optical Phenomena / 8.6: |
| Ultra-short and Ultra-high-Power Laser Pulse Generation / 8.7: |
| Short-Pulse Generation by Mode-Locking / 8.7.1: |
| Generation of Ultra-high Power Pulses / 8.7.2: |
| Laser Spectroscopy / 9: |
| Comparison Between Conventional Light Sources and Lasers / 9.1: |
| Saturation / 9.1.2: |
| Excitation Methods / 9.1.3: |
| Detection Methods / 9.1.4: |
| Laser Wavelength Setting / 9.1.5: |
| Doppler-Limited Techniques / 9.2: |
| Absorption Measurements / 9.2.1: |
| Intracavity Absorption Measurements / 9.2.2: |
| Absorption Measurements on Excited States / 9.2.3: |
| Level Labelling / 9.2.4: |
| Two-Photon Absorption Measurements / 9.2.5: |
| Opto-Galvanic Spectroscopy / 9.2.6: |
| Single-Atom and Single-Molecule Detection / 9.2.7: |
| Opto-Acoustic Spectroscopy / 9.2.8: |
| Optical Double-Resonance and Level-Crossing Experiments with Laser Excitation / 9.3: |
| Time-Resolved Atomic and Molecular Spectroscopy / 9.4: |
| Generation of Short Optical Pulses / 9.4.1: |
| Measurement Techniques for Optical Transients / 9.4.2: |
| Background to Lifetime Measurements / 9.4.3: |
| Survey of Methods of Measurement for Radiative Properties / 9.4.4: |
| Quantum-Beat Spectroscopy / 9.4.5: |
| Ultrafast Spectroscopy / 9.5: |
| Ultrafast Measurement Techniques / 9.5.1: |
| Molecular Reaction Dynamics (Femtochemistry) / 9.5.2: |
| Coherent Control / 9.5.3: |
| High-Power Laser Experiments / 9.6: |
| Above Threshold Ionization (ATI) / 9.6.1: |
| High Harmonic Generation / 9.6.2: |
| X-Ray Laser Pumping / 9.6.3: |
| Broadband X-Ray Generation / 9.6.4: |
| Relativistic Effects and Laser Accelerators / 9.6.5: |
| Laser-Nuclear Interactions and Laser-Driven Fusion / 9.6.6: |
| High-Resolution Laser Spectroscopy / 9.7: |
| Spectroscopy on Collimated Atomic and Ionic Beams / 9.7.1: |
| Saturation Spectroscopy and Related Techniques / 9.7.2: |
| Doppler-Free Two-Photon Absorption / 9.7.3: |
| Cooling and Trapping of Ions and Atoms / 9.8: |
| Ion Traps / 9.8.1: |
| Basic Laser Cooling in Traps / 9.8.3: |
| Trapped Ion Spectroscopy / 9.8.4: |
| Atom Cooling and Trapping / 9.8.5: |
| Sub-Recoil Cooling / 9.8.6: |
| Atom Optics / 9.8.7: |
| Bose-Einstein Condensation and "Atom Lasers" / 9.8.8: |
| Fermionic "Condensation" / 9.8.9: |
| Laser-Spectroscopic Applications / 10: |
| Diagnostics of Combustion Processes / 10.1: |
| Background / 10.1.1: |
| Laser-Induced Fluorescence and Related Techniques / 10.1.2: |
| Coherent Anti-Stokes Raman Scattering / 10.1.3: |
| Velocity Measurements / 10.1.5: |
| Laser Remote Sensing of the Atmosphere / 10.2: |
| Optical Heterodyne Detection / 10.2.1: |
| Long-Path Absorption Techniques / 10.2.2: |
| Lidar Techniques / 10.2.3: |
| Laser-Induced Fluorescence and Raman Spectroscopy in Liquids and Solids / 10.3: |
| Hydrospheric Remote Sensing / 10.3.1: |
| Vegetation Monitoring / 10.3.2: |
| Monitoring of Surface Layers / 10.3.3: |
| Laser-Induced Chemical Processes / 10.4: |
| Laser-Induced Chemistry / 10.4.1: |
| Laser Isotope Separation / 10.4.2: |
| Spectroscopic Aspects of Lasers in Medicine / 10.5: |
| Thermal Interaction of Laser Light with Tissue / 10.5.1: |
| Photodynamic Tumour Therapy / 10.5.2: |
| Tissue Diagnostics with Laser-Induced Fluorescence / 10.5.3: |
| Scattering Spectroscopy and Tissue Transillumination / 10.5.4: |
| Questions and Exercises |
| References |
| Index |
| Introduction / 1: |
| Atomic Structure / 2: |
| One-Electron Systems / 2.1: |
図書
EB
