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Table of Contents
1 Cover
4 Preface
6 1 Radiation–Matter Interaction Principles 1.1 Empirical Aspects of Radiation–Matter Interaction 1.2 Microscopic Point of View 1.3 Instrumental Setups 1.4 Case Studies References
7 2 Time‐Resolved Photoluminescence 2.1 Introduction to Photoluminescence Spectroscopy 2.2 Experimental Methods and Analysis 2.3 Case Studies: Luminescent Point Defects in Amorphous SiO2 References
8 3 Ultrafast Optical Spectroscopies 3.1 Femtosecond Spectroscopy: An Overview 3.2 Ultrafast Optical Pulses 3.3 Transient Absorption Spectroscopy 3.4 Ultrafast Fluorescence Spectroscopies 3.5 Femtosecond Stimulated Raman Spectroscopy 3.6 Case Studies References
9 4 Confocal and Two‐Photon Spectroscopy 4.1 Introduction and Historical Perspectives 4.2 Fluorescence Imaging 4.3 Spectroscopy Using a Microscope 4.4 Case Studies References
10 5 Infrared Absorption Spectroscopy 5.1 Fundamentals 5.2 Sources and Detectors 5.3 Techniques and Sampling Methods 5.4 Applications and Case Studies References
11 6 Raman and Micro‐Raman Spectroscopy 6.1 Basic Theory 6.2 Instrumentation 6.3 Case Studies References
12 7 Thermally Stimulated Luminescence 7.1 Theory of Thermally Stimulated Luminescence 7.2 Data Analysis Methods 7.3 Instrumentation and Considerations on Samples 7.4 Case Studies References
13 8 Spectroscopic Studies of Radiation Effects on Optical Materials 8.1 Introduction 8.2 Radiation‐Induced Effects on Optical Materials and Optical Fibers 8.3 Radiation‐Induced Attenuation Measurements 8.4 Radiation‐Induced Luminescence (RIL) 8.5 Case Studies References
14 9 Electron Paramagnetic Resonance Spectroscopy (EPR) 9.1 Introduction 9.2 Basic Principle of EPR 9.3 Anisotropy of g and Spectral Lineshape 9.4 The EPR Lineshape in Powder or in Amorphous 9.5 Hyperfine Interactions 9.6 Paramagnetic Center with S = 1 9.7 Basics of Continuous Wave EPR Setup 9.8 Parameters for EPR Signal Acquisition 9.9 Cw EPR Case Studies 9.10 Time‐Resolved EPR Spectroscopy References
15 10 Nuclear Magnetic Resonance Spectroscopy 10.1 Introduction 10.2 NMR General Concepts