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Design of optical fibres with advanced modal control properties
Olena Muliar
Centre of Excellence for Silicon Photonics for Optical Communications
Research output
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Book/Report
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Ph.D. thesis
891
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Dive into the research topics of 'Design of optical fibres with advanced modal control properties'. Together they form a unique fingerprint.
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Engineering
Control Property
100%
Design
100%
Fiber
66%
Bandwidth
26%
Measurement
20%
Division Multiplexing
20%
Photonic Bandgap Fibers
20%
Losses
20%
Demultiplexing
20%
Computer Simulation
13%
Wavelength
13%
Step Index
13%
Fibre Mode
13%
Applications
13%
Evaluation
13%
Properties
13%
Transmissions
13%
Filtration
13%
Light Source
6%
Good Agreement
6%
Experimental Characterization
6%
Fourier Transform
6%
Delay Time
6%
Photonic Crystal Fibers
6%
C-Band
6%
Temporal Resolution
6%
Cutoff Wavelength
6%
Time-of-Flight
6%
Optical Communication System
6%
Group Velocity
6%
Spatial Data
6%
Beam Power
6%
Models
6%
Development
6%
Simulation
6%
Requirements
6%
Deviation
6%
Effective Refractive Index
6%
Interferogram
6%
Physics
Fibers
100%
Multiplexing
26%
Cores
26%
Energy Gaps (Solid State)
20%
Simulation
20%
Photonics
20%
Propagation Mode
13%
Evaluation
13%
Utilization
13%
Shapes
13%
Photonic Crystal Fiber
13%
Optical Communication
6%
Light Sources
6%
Refractivity
6%
Group Velocity
6%
Interferometry
6%
Imaging Techniques
6%
Dispersion Compensation
6%
Foci
6%
Standard
6%
Model
6%
Detection
6%
Frequencies
6%
Deviation
6%
Alternatives
6%
World
6%
Regimes
6%
Spectra
6%
Material Science
Fiber
100%
Fiber Optics
100%
Characterization
33%
Multiplexing
33%
Rod
26%
Cell
20%
Refractive Index
6%
Dispersion
6%
Velocity
6%