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Gratings in passive and active optical waveguides
Martin Ole Berendt
Research output
:
Book/Report
›
Ph.D. thesis
Overview
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Dive into the research topics of 'Gratings in passive and active optical waveguides'. Together they form a unique fingerprint.
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Physics
Optical Waveguides
100%
Cladding
52%
Fibers
23%
Coupled Modes
17%
Model
17%
Output
17%
Optical Fiber
11%
Silica
11%
Utilization
11%
Variations
11%
Air
11%
Photons
5%
Numerical Model
5%
Birefringence
5%
Dielectrics
5%
Refractivity
5%
Lasing
5%
Ytterbium
5%
Diffraction Grating
5%
Erbium
5%
Cooling
5%
Technology
5%
Temperature
5%
Responses
5%
Shapes
5%
Growth
5%
Value
5%
Position (Location)
5%
Fabrication
5%
Sides
5%
Width
5%
Cores
5%
Mirrors
5%
Temperature Gradients
5%
Feedback
5%
Discrimination
5%
Spectra
5%
Engineering
Cladding Mode
35%
Fibre Laser
35%
Fiber
23%
Silicon Dioxide
23%
Output Power
17%
Models
17%
Couplings
17%
Fiber Bragg Grating
17%
Grating Period
11%
Erbium
11%
Polarization Mode
11%
Design
11%
Properties
11%
Modulation Index
11%
Fabrication
5%
Numerical Model
5%
Research Project
5%
Experimental Investigation
5%
Wavelength
5%
Interplay
5%
Temperature Gradient
5%
Major Problem
5%
Photons
5%
Fundamental Mode
5%
Dielectrics
5%
Reflection Spectrum
5%
Coupling Loss
5%
Short Wavelength Side
5%
Applications
5%
Mechanisms
5%
Temperature
5%
Experiments
5%
Production
5%
Reduction
5%
Limitations
5%
Losses
5%
Effective Refractive Index
5%
Induced Birefringence
5%
Material Science
Waveguide
100%
Fiber Laser
35%
Fiber
23%
Ytterbium
11%
Air
11%
Temperature
11%
Dielectric Material
5%
Refractive Index
5%
Birefringence
5%
Fiber Optics
5%