主题：【资料】Introduction to Laser Spectroscopy

主编：H. Abramczyk
时间：2005
出版社：Elsevier
目录：Contents
1. Basic Physics of Lasers 
1.1. Spontaneous and Stimulated Transitions. Einstein Coefficients.
Properties of Stimulated Radiation
1.2. Laser Operation Basics
1.3. Population Inversion
1.4. Amplification and Saturation
2. Distribution of the Electromagnetic Field in the Optical Resonator
2.1. Longitudinal Modes
2.2. Quality Factor of Resonator Q. Relationship between Linewidth of
Stimulated Emission and Resonator Quality Factor
2.3. Transverse Modes
3. Generation of Ultrashort Laser Pulses
3.1. Modelocking. Relationship between Linewidth of Stimulated Emission and Pulse Duration
3.2. Methods of Modelocking. Active and Passive Modelocking
3.3. Q-Switching
3.4. Cavity dumping
4. Lasers
4.1. Ruby Laser
4.2. Molecular Gas Lasers from the Infrared Region
4.2.1. Lasers Operating on Rotational Transitions
4.2.2. Lasers Operating on Vibrational-Rotational Transitions:
CO2 and CO
4.3. Chemical Lasers
4.4. Solid-State Lasers
4.4.1. Neodymium Laser and other Rare-Earth Lasers
4.4.2. Solid-State Tunable Lasers (Vibronic Lasers)
4.4.3. Fiber Lasers
4.5. Gas Lasers for the Visible Range
4.5.1. Helium–Neon Laser
4.5.2. Ion–Gas Lasers. Argon and Krypton Lasers.
4.6. Liquid Dye Lasers
4.7. Gas Lasers for the Ultraviolet Range.
4.7.1. Excimer Lasers
4.7.2. Nitrogen Laser
4.8. Diode Lasers
4.8.1. Intrinsic Semiconductors. Doped Semiconductors. n-p Junction
4.8.2. Diode Lasers
5. Nonlinear Optics
5.1. Second Order Nonlinear Phenomena
5.2. Phase Matching Methods
5.3. Practical Aspects of the Second Harmonic Generation
5.3.1. SHG for Pico- and Femtosecond Pulses
5.4. Parametric Oscillator
5.5. The Third Order Nonlinear Processes
5.5.1. Stimulated Raman Scattering
5.5.2. Coherent Anti-Stokes Raman Scattering (CARS)
5.5.3. The Other Techniques of Nonlinear Stimulated Raman Scattering
5.6. Nonlinear Dispersion Phenomena Affecting Picosecond and
Femtosecond Pulse Duration – Group Velocity Dispersion (GVD)
and Self Phase Modulation (SPM
6. Pulse Amplification
6.1. Introduction
6.2. Theoretical Background
6.3. Design Features of Amplifiers
6.4. Regenerative Amplifier
6.4.1. The Pockels Cell
6.5. Chirped Pulse Amplification (CPA
7. The Measurement of Ultrashort Laser Pulses
7.1. Autocorrelation Techniques
7.2. FROG Techniques
8. Selected Methods of Time-Resolved Laser Spectroscopy
8.1. Fluorescence Decay
8.2. The Pump-Probe Method
8.3. CARS as a Time-Resolved Method
8.4. Photon Echo
8.4.1. Spin Echo in NMR
8.4.2. Optical Resonance
8.4.3. Quantum-Classical Description of the Photon Echo
Weak Field Approximation
Rotating-Wave Approximation
Strong Field Approximation. Rabbi Frequency
8.4.4. Practical Advantages of Photon Echo Applications
8.5. Quantum Beats
8.5.1. Quantum Description
8.5.2. Examples of Quantum Beats Applications
9. Ultrafast Chemical and Physical Processes
9.1. Femtochemistry. Wave packet dynamics. Theory
9.2. Femtochemistry. Spectroscopic Application of Wave Packet Dynamics
9.2.1. Excited-State Vibrational Coherence
9.2.2. Vibrational Coherence in ‘‘Reacting’’ Excited-State Molecules.
Bacteriorhodopsin
9.2.3. H-Bond Dynamics
9.3. Photoisomerization
9.3.1. Photoisomerization of cis- and trans-Stilbene
9.4. Intramolecular Charge Transfer
9.5. Molecular Reorientations
9.6. Investigation of Intermediates
9.6.1. Photoreduction
9.6.2. Carbenes46
9.6.3. Excited-State Proton Transfer
9.7. Ultrafast Coherent Spectroscopy. Vibrational Dynamics
9.7.1. Energy Relaxation T1, and Phase Relaxation T2
9.8. Dynamics of an Excess Electron. Solvated Electron
9.9. Excess Electron Spectroscopy
10. Lasers in Medicine
10.1. Introduction
10.2. Photochemical Interactions
10.2.1. Photodynamic Therapy
10.2.2. Sensitizers
10.2.3. Photochemistry of Sensitizers
10.3. Thermal Interaction
10.4. Photoablation
10.5. Plasma-Induced Ablation
10.6. Application of Lasers in Medicine
11. Potential Hazards Associated with Inappropriate Use of Lasers
11.1. Radiation Hazards
11.1.1. Eye Hazards
11.1.2. Skin Hazard
11.2. Other Hazards
12. Detectors
12.1. Detectors Types and Detectors Characterizing Parameters
12.2. Photoemissive Detectors
12.3. Semiconductor Detectors
12.4. Multichannel Detectors PDA and CCD
Subject Index
Introduction to Laser Spectroscopy