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Author:   Jose Solé (University of Madrid, Spain) ,  Luisa Bausa (University of Madrid, Spain) ,  Daniel Jaque (University of Madrid, Spain)
Publisher:   John Wiley and Sons Ltd
Imprint:   John Wiley & Sons Ltd
Dimensions:   Width: 16.50cm , Height: 2.10cm , Length: 23.60cm
Weight:   0.560kg
ISBN:  

9780470868850

ISBN 10:   0470868856
Pages:   304
Publication Date:   18 February 2005
Audience:   Professional and scholarly ,  College/higher education ,  Professional & Vocational ,  Undergraduate
Format:   Hardback
Publisher's Status:   Unknown
Availability:   In Print  
Limited stock is available. It will be ordered for you and shipped pending supplier's limited stock.

Table of Contents

"Preface. Acknowledgments. Some Physical Constants of Interest in Spectroscopy. A Periodic Table of the Elements for Optical Spectroscopy. 1. Fundamentals. 1.1 Origin of the Spectroscopy. 1.2 Electromagnetic Spectrum. Optical Spectroscopy. 1.3 Absorption. The Spectrophotometer. 1.4 Luminescence. The Spectrofluorimeter. Time Resolved Luminescence. 1.5 Scattering. The Raman effect. 1.6 Advanced topic: The Fourier Transform Spectrophotometer. Exercises. 2. Light Sources. 2.1 Introduction. 2.2 Lamps. 2.3 The Laser. Basic Principles. 2.4 Types of Lasers. 2.5 Tunability of laser radiation. The Optical Parametric Oscillator. 2.6 Advanced Topic:1) Site Selective Spectroscopy. 2) Excited State Absorption. Exercises. 3. Monochromators and Detectors.  3.1 Introduction. 3.2 Monochromators. 3.3 Types of Detectors. Basic Parameters. 3.4 The Photomultiplier. 3.5 Signal/noise ratio Optimisation. 3.6 Detection of Pulses. 3.7 Advanced Topic: Detection of Very Fast Pulses; The Streak Camera; The Correlator. Exercises. 4. The Optical Transparency of Solids. 4.1 Introduction. 4.2 Optical Magnitudes and the Dielectric Constant. 4.3The Lorentz Oscillator. 4.4 Metals. 4.5 Semiconductors and Insulators. 4.6 Spectral Shape of the Fundamental Absorption Edge. 4.7 Excitons. 4.8 Advanced Topic: The Colour of Metals. Exercises. 5. Optically Active Centers. 5.1 Introduction. 5.2 Static Interaction. The Crystalline Field. 5.3 Band Intensities. The Oscillator Strength. 5.4 Dynamic Interaction. The Coordinate Configuration Diagram. 5.5 Band Shape. The Huang-Rhys Factor. 5.6 Non Radiative Transitions. Energy Transfer. 5.7 Advanced Topic: Determination of Quantum Efficiencies. Exercises. 6. Applications: Rare Earth and Transition Metal Ions, and Color Centers. 6.1 Introduction. 6.2 Trivalent Rare Earth Ions. Diagram of Dieke. 6.3 Non Radiative Transitions in Rare Earth Ions; The ""Energy Gap"" Law. 6.4 Transition Metal Ions. Tanabe- Sugano Diagrams. 6.5 Colour Centres. 6.6 Advanced topic: 1) The Judd and Ofelt method. 2) Optical Cooling of Solids. 7. Group Theory and Spectroscopy. 7.1 Introduction. 7.2 Symmetry Operations and Classes. 7.3 Representations. The Character Table. 7.4 Reduction in Symmetry and Splitting of Energy Levels. 7.5 Selection Rules for Optical Transitions. 7.6 Illustrative Examples. 7.7 Advanced Topic: Applications to Optical Transitions of Kramers Ions. Exercises. Appendix A1: The Joint Density of States. Appendix A2: The Effect of an Octahedral Field on a d1 Valence Electron. Appendix A3: The Calculation of the Probability of Spontaneous Emission by Means of Einstein Thermodynamic Treatment. Appendix A4: Determination of the Smakula´s Formula. Index."

Reviews

This is a useful book for an undergraduate or an early-stage postgraduate course in spectroscopy. (The Higher Education Academy Physical Sciences Centre, June 2008)

Author Information

Jose Solé, Department of Material Science, University of Madrid, Spain. Luis Bausa, Department of Material Science, University of Madrid, Spain. Daniel Jaque, Department of Material Science, University of Madrid, Spain.

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