Optically amplifying planar glass waveguides: Laser on a chip

Physics

• Waveguide Lasers 100%
• Glass 100%
• Erbium 53%
• Planar Waveguide 26%
• Aluminium 20%
• Ion 13%
• Silica 13%
• Fluorescence 13%
• Thin Films 13%
• Linewidth 13%
• Refractivity 13%
• Bragg Gratings 13%
• Circuits 13%
• Output 13%
• Laser 13%
• Etching 13%
• Diffusivity 6%
• Annealing 6%
• Amplifier 6%
• Ultraviolet Radiation 6%
• Germanium 6%
• Population Inversion 6%
• Media 6%
• Work 6%
• Independent Variables 6%
• Temperature 6%
• Area 6%
• Arrays 6%
• Light 6%
• Differences 6%
• Width 6%
• Roughness 6%
• Spectra 6%

Material Science

• Waveguide 100%
• Glass 100%
• Laser 100%
• Amplifier 20%
• Thin Films 13%
• Electronic Circuit 13%
• Germanium 13%
• Refractive Index 13%
• Fluorescence 13%
• Beryllium Ion 13%
• Annealing 6%
• Silicate Glass 6%
• Plasma-Enhanced Chemical Vapor Deposition 6%
• Etching 6%
• Reactive Ion Etching 6%
• Temperature 6%
• Diffusivity 6%

Engineering

• Erbium 100%
• Aluminum 40%
• Silicon Dioxide 26%
• Co-Doping 20%
• Thin Films 13%
• Bragg Cell 13%
• Wavelength 13%
• Refractive Index 13%
• Networks (Circuits) 13%
• Gas Fuel Manufacture 13%
• Measurement 6%
• Beneficial Effect 6%
• Diffusion Coefficient 6%
• Deposited Film 6%
• Output Power 6%
• Gain Medium 6%
• Gain Factor 6%
• Spectral Distribution 6%
• Thermal Influence 6%
• Sidewall Roughness 6%
• Propagation Loss 6%
• Annealing Temperature 6%
• Population Inversion 6%
• Optical Spectrum 6%
• Spectral Width 6%
• Accuracy 6%
• Processing 6%
• Losses 6%
• Erbium Ion 6%