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Series Preface | ||
Preface | ||
1 | Introduction | 1 |
1.1 | Solid-State Laser Operation and Design Parameters | 2 |
1.2 | Material Requirements for Laser Hosts and Active Ions | 23 |
1.3 | Material Preparation and Optical Quality | 27 |
2 | Electronic Energy Levels | 31 |
2.1 | Free-Ion Energy Levels | 32 |
2.2 | Elements of Group Theory | 49 |
2.3 | Crystal-Field Splitting of Energy Levels | 57 |
3 | Radiative Transitions | 84 |
3.1 | The Photon Field | 84 |
3.2 | Selection Rules | 94 |
3.3 | Properties of Spectral Lines | 98 |
3.4 | Nonlinear Optical Properties | 107 |
4 | Electron-Phonon Interactions | 116 |
4.1 | The Phonon Field | 117 |
4.2 | Weak Coupling: Radiationless Transitions | 127 |
4.3 | Weak Coupling: Vibronic Transitions | 137 |
4.4 | Weak Coupling: Spectral Linewidth and Line Position | 140 |
4.5 | Example: Spectral Properties of SrTiO[subscript 3]:Cr[superscript 3+] | 147 |
4.6 | Strong Coupling | 156 |
4.7 | Jahn-Teller Effect | 169 |
5 | Ion-Ion Interaction | 175 |
5.1 | Exchange-Coupled Ion Pairs | 177 |
5.2 | Nonradiative Energy Transfer: Single-Step Process | 182 |
5.3 | Phonon-Assisted Energy Transfer | 192 |
5.4 | Nonradiative Energy Transfer: Multistep Process | 195 |
5.5 | Connection with Experiment: Rate Equation Analysis | 204 |
6 | [actual symbol not reproducible] Laser Crystals | 215 |
6.1 | Energy Levels of Cr[superscript 3+] | 215 |
6.2 | Crystal-Field Splitting | 224 |
6.3 | Spin-Orbit Splitting and Selection Rules | 233 |
6.4 | Strong-Field Laser Materials | 237 |
7 | Transition-Metal-Ion Laser Materials | 254 |
7.1 | Broad-Band Cr[superscript 3+] Laser Materials: Alexandrite | 254 |
7.2 | Spectral Properties of Cr[subscript 3+] in Different Hosts and Their Laser Characteristics | 260 |
7.3 | Transition-Metal Ions and Host Crystals | 270 |
7.4 | Laser Materials Based on Ti[superscript 3+] Ions | 271 |
7.5 | Laser Materials Based on Ions with 3d[superscript 2] Configurations | 282 |
7.6 | Laser Materials Based on Ions with 3d[superscript 3] Through 3d[superscript 8] Configurations | 287 |
8 | [actual symbol not reproducible] Laser Crystals | 294 |
8.1 | Energy Levels of Nd[superscript 3+] | 294 |
8.2 | Crystal-Field Splitting | 301 |
8.3 | Radiative Transitions: Judd-Ofelt Theory | 309 |
8.4 | Example: [actual symbol not reproducible] | 319 |
9 | Rare-Earth-Ion Laser Materials | 339 |
9.1 | Nd[superscript 3+] Lasers | 339 |
9.2 | Other Trivalent Lanthanide Lasers | 359 |
10 | Miscellaneous Laser Materials | 380 |
10.1 | Other Rare-Earth-Ion Lasers | 381 |
10.2 | Nonlinear Optical Lasers | 384 |
10.3 | Color-Center Lasers | 407 |
10.4 | Other-Solid-State Lasers | 411 |
Index | 417 |
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Add Physics Of Solid State Laser Materials, This graduate-level text presents the fundamental physics of solid-state lasers, including the basis of laser action and the optical and electronic properties of laser materials. Some knowledge of quantum mechanics and solid-state physics is assumed, but , Physics Of Solid State Laser Materials to the inventory that you are selling on WonderClubX
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Add Physics Of Solid State Laser Materials, This graduate-level text presents the fundamental physics of solid-state lasers, including the basis of laser action and the optical and electronic properties of laser materials. Some knowledge of quantum mechanics and solid-state physics is assumed, but , Physics Of Solid State Laser Materials to your collection on WonderClub |