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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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| $99.99 | Digital |
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Richard Desjardins
reviewed Physics Of Solid State Laser Materials on September 30, 2016
Physics Of Solid State Laser Materials
Siendo un libro de materia condensada ya se iba conociendo que el desenlace no podÃa ser bueno pero es que supera las expectativas: cada página es una tortura mayor (y no sé ni cuántas fui capaz de leer)
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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 |