Design of optical fibres with advanced modal control properties

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%