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ytterbium- & erbium-doped silica for planar waveguide lasers & amplifiers
Morten Glarborg Dyndgaard
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Ph.D. thesis
797
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Dive into the research topics of 'ytterbium- & erbium-doped silica for planar waveguide lasers & amplifiers'. Together they form a unique fingerprint.
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Material Science
Waveguide
100%
Ytterbium
100%
Silicon Dioxide
100%
Erbium
100%
Silicate
33%
Silicate Glass
22%
Plasma-Enhanced Chemical Vapor Deposition
11%
Film
11%
Reactive Ion Etching
11%
Aluminum
11%
Engineering
Amplifier
100%
Waveguide
100%
Bragg Cell
50%
Computer Simulation
16%
Good Agreement
16%
Good Performance
16%
Output Power
16%
Optimised Design
16%
Maximum Output Power
16%
Ultraviolet Light
16%
Numerical Model
16%
Chemical Vapor Deposition
16%
Vapor Deposition
16%
Silica Glass
16%
Fluorescence Intensity
16%
Physics
Planar Waveguide
100%
Waveguide Lasers
100%
Erbium
100%
Bragg Reflector
40%
Waveguide
20%
Bragg Gratings
20%
Vapor Deposition
20%
Numerical Model
20%
Silica Glass
20%
Chemical Engineering
Erbium
100%
Plasma Enhanced Chemical Vapor Deposition
25%
Fused Silica
25%
Keyphrases
Phosphate Glass
40%
Phosphosilicate
20%
Reflector Design
20%
Ytterbium Ion
20%
Laser Ytterbium
20%