Limit search to available items
Book Cover
E-book
Author Luo, Zundu.

Title Physics of solid-state laser materials / Zundu Luo, Yidong Huang
Published Singapore : Springer, [2020]

Copies

Description 1 online resource
Series Springer series in materials science ; v. 289
Springer series in materials science ; v. 289.
Contents Intro -- Preface -- About This Book -- Contents -- About the Authors -- 1 Energy Level of Free Ions -- 1.1 Energy Levels of the Single Electron in Atoms (Free Ions) -- 1.2 General Properties of Energy Level in Multi-electron of Free Ions -- 1.3 Energy Levels of Free Transition-Metal Ions -- 1.4 Energy Levels of Free Rare Earth Ions -- 1.5 Theory of Interactions in Rare Earth Ions -- References -- 2 Group Theory and Quantum Theory -- 2.1 Mathematical Description of the Symmetry -- 2.2 Basic Conception of the Group -- 2.3 Theory of Group Representations
2.4 Direct Product Group and Direct Product Representation -- 2.5 Sketches of the Group in Spectroscopy -- 2.5.1 Finite Group -- 2.5.2 Permutation Group -- 2.5.3 Continuous Groups -- 2.6 Point Group and Their Representation -- 2.7 Symmetry and Quantum Theory of the Ions in Solids -- 2.8 Full Rotation Group and Angular Momentum Theory -- 2.9 Irreducible Tensor Operators and the Calculation of Matrix Elements -- References -- 3 Rare Earth Ions in Materials -- 3.1 Crystal Field on the Active Ions -- 3.2 Energy Level Splitting of the Rare Earth Ions -- 3.3 Crystal Field Quantum Number
3.4 Group Chain Scheme Method in Crystal Field Analysis -- References -- 4 Theory of Radiative Transition -- 4.1 Interactions Between Active Ions and Radiation -- 4.2 Probability of Emission and Absorption Processes -- 4.3 Selection Rules for Radiative Transition -- 4.3.1 Selection Rules for Radiative Transition of Free Ions and Atoms -- 4.3.2 Selection Rules for Radiative Transition of Ions in Materials -- References -- 5 Spectroscopic Parameter and Their Calculation -- 5.1 Absorption Coefficient, Absorption (Emission) Cross-Section, and Oscillator Strength
5.2 Analysis of the Absorption Coefficients of Anisotropic Crystal -- 5.3 Judd-Ofelt Approximation and Related Parameter -- 5.4 Spectroscopic Parameter Calculation of Rare Earth Ion in Crystal -- 5.5 Hypersensitive Transitions -- References -- 6 Phonon and Spectral Line -- 6.1 Quantization of Lattice Vibration-Phonon -- 6.2 Phonon Emission and Absorption in the Optical Transition -- 6.3 Main Mechanisms of the Thermal Spectral Line Broadening and Shifting -- 6.4 The Contribution of Single-Phonon Absorption (Emission) to the Spectral Linewidth
6.5 The Contribution of Phonon Raman Scattering to the Spectral Linewidth -- 6.6 Calculation of the Thermal Shifting of Spectral Lines -- 6.7 Examples for the Calculation of Thermal Spectral Line Broadening and Shifting -- References -- 7 Energy Levels and Spectroscopic Properties of Transition Metal Ions -- 7.1 Energy Levels and Spectral Properties of 3d1 Electron System -- 7.2 Energy Levels and Spectral Properties of 3d2 Electron System -- 7.3 Energy Levels and Spectral Properties of 3d3 Electronic System -- 7.4 Relative Intensity Analysis of R Line in Ruby Polarized Absorption Spectrum
Summary This book discusses the spectral properties of solid-state laser materials, including emission and absorption of light, the law of radiative and nonradiative transitions, the selection rule for optical transitions, and different calculation methods of the spectral parameters. The book includes a systematic presentation of the authors' own research works in this field, specifically addressing the stimulated nonradiative transition theory and the apparent crystal field model. This volume is helpful resource for researchers and graduate students in the fields of solid spectroscopy and solid-state laser material physics, while also serving as a valuable reference guide for instructors and advanced students of physics
Bibliography Includes bibliographical references and index
Subject Solid-state lasers.
Lasers, Solid-State
Solid-state lasers
Form Electronic book
Author Huang, Yidong.
ISBN 9789813296688
9813296682
9789813296695
9813296690
9789813296701
9813296704