Tunable Solid State Lasers

Inhaltsverzeichnis

• I Operational Vibronic Lasers/Advanced Design and Applications.
• Recent Advances in Transition-Metal-Doped Lasers.
• Laser Action in Cr-Doped Garnets and Tungstates.
• Optical and Lasing Properties of Cr3+, Co2+, Ni2+ and V2+ Doped Perovskites.
• Recent Progress in High Repetition Rate High Power, Line-Narrowed Alexandrite Laser.
• Alexandrite Laser Systems: Scaling to Kilowatt Powers.
• An Overview of NASA Requirements for Tunable Solid State Laser Systems and Technology.
• Laser Transmitters for Meteorological Lidar: NTAL Program.
• II Vibronic Laser Materials Spectroscopy.
• Recent Results on the Spectroscopy of Transition Metal Ions for Tunable Solid State Lasers.
• Measurements of Ti3+: Al2O3 as a Lasing Material.
• Stimulated Emission from Flashpumped Ti: Al2O3.
• Laser Pumped Single Pass Gain.
• Trivalent Cerium Doped Crystals as Tunable Laser Systems: Two Bad Apples.
• Cuprous Ion Doped Crystals for Tunable Lasers.
• III Vibronic Laser Materials Growth.
• Transition Metals in Oxide Hosts.
• Growth of Crystals for Solid State Lasers.
• Growth of Fluoride Laser Host Crystals.
• Growth of Co: MgF2 and Ti: Al2O3 Crystals for Solid State Laser Applications.
• The Laser-Heated Pedestal Growth Method: A Powerful Tool in the Search for New High Performance Laser Crystals.
• IV Vibronic Laser Theory and Cross-Fertilization Through Interdisciplinary Fields.
• Energy Transfer in Vibronic Laser Materials.
• Theory of Fluorescence Quenching in Low-Field Chromium Complexes in Solids.
• Theoretical Methods for the Study of Transition Metals in Crystals.
• Cu+ in Alkali Halides: Model Systems for Understanding Ions in Crystals.
• Electron-Phonon Interaction and Defect Processes in Laser Materials.
• Post Conference Contribution Laser Action of H3 Color Center in Diamond.
• Index of Contributors.