Introduction and history - Current status of lasers based on nanocrystalline ceramics - History of laser ceramics / 1: |
Fabrication - Modern fabrication processes of laser ceramics (including of all possible steps) - Composite ceramics - Grains and grain-boundary structure and its local chemistry / 2: |
Physics of laser ceramics - Physical properties of modern laser ceramic based on cubic oxides with garnet and sesquioxide structure - Spectroscopic properties of laser ceramics based on cubic C-type sesquioxides - Spectroscopic properties of Nd3+ and Yb3+ ions in Y3Al5O12 co-doped with Cr and Ca(Mg) ions / 3: |
Nonlinear-laser properties - Raman scattering in ceramics based on of cubic oxides with garnet and C-type sesquioxide structure / 4: |
Laser properties of modern highly transparent oxide ceramics - Y3Al5O12:Nd3+ ceramic lasers - Y3Al5O12:Yb3+ ceramic lasers - Y3Al5O12:Er3+ ceramic lasers - Y3(Al,Sc)2Al3O12:Yb3+ ceramic lasers - Y2O3:Nd3+ ceramic lasers - Y2O3:Yb3+ ceramic lasers - Sc2O3:Yb3+ ceramic lasers - Lu2O3:Yb3+ ceramic lasers - YGdO3:Nd3+ ceramic lasers / 5: |
Future prospects of highly-transparent ceramics - High-power ceramic lasers for industrial applications - High-power ceramic lasers for non-industrial and scientific applications - Femtosecond ceramic lasers for applications - Ceramic lasers for fusion drivers - Micro-chip and solid-state photonic devices - Lens materials - Lamp tubes - Optical ceramics - Scintillator ceramics for X-ray techniques / 6: |
Bibliography Subject |
index |
Introduction and history - Current status of lasers based on nanocrystalline ceramics - History of laser ceramics / 1: |
Fabrication - Modern fabrication processes of laser ceramics (including of all possible steps) - Composite ceramics - Grains and grain-boundary structure and its local chemistry / 2: |
Physics of laser ceramics - Physical properties of modern laser ceramic based on cubic oxides with garnet and sesquioxide structure - Spectroscopic properties of laser ceramics based on cubic C-type sesquioxides - Spectroscopic properties of Nd3+ and Yb3+ ions in Y3Al5O12 co-doped with Cr and Ca(Mg) ions / 3: |
Nonlinear-laser properties - Raman scattering in ceramics based on of cubic oxides with garnet and C-type sesquioxide structure / 4: |
Laser properties of modern highly transparent oxide ceramics - Y3Al5O12:Nd3+ ceramic lasers - Y3Al5O12:Yb3+ ceramic lasers - Y3Al5O12:Er3+ ceramic lasers - Y3(Al,Sc)2Al3O12:Yb3+ ceramic lasers - Y2O3:Nd3+ ceramic lasers - Y2O3:Yb3+ ceramic lasers - Sc2O3:Yb3+ ceramic lasers - Lu2O3:Yb3+ ceramic lasers - YGdO3:Nd3+ ceramic lasers / 5: |
Future prospects of highly-transparent ceramics - High-power ceramic lasers for industrial applications - High-power ceramic lasers for non-industrial and scientific applications - Femtosecond ceramic lasers for applications - Ceramic lasers for fusion drivers - Micro-chip and solid-state photonic devices - Lens materials - Lamp tubes - Optical ceramics - Scintillator ceramics for X-ray techniques / 6: |