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Low-nonlinearity optical fibers and their applications
Peter D. Dragic
, John Ballato
, Thomas W. Hawkins
Electrical and Computer Engineering
Micro and Nanotechnology Lab
Research output
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Chapter in Book/Report/Conference proceeding
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Keyphrases
Brillouin Scattering
25%
Bulk Material
25%
Deleterious Effects
25%
Design Process
25%
Fiber Laser
25%
Fiber Optics Systems
25%
Fiber-based
25%
Intensity Noise
25%
Kerr Nonlinearity
25%
Laser System
25%
Laser-based
25%
Light Propagation
25%
Light-matter Interaction
25%
Long Distance
25%
Low Nonlinearity
100%
Nonlinear Interaction
25%
Optical Fiber
100%
Optical Nonlinearity
25%
Optical System
25%
Phase Noise
25%
Power Scaling
50%
Power Threshold
25%
Raman Scattering
25%
Signal Spectrum
25%
Telecommunication Systems
25%
Thermo-optic Effect
25%
Waveguide Approach
25%
Engineering
Backlight
25%
Brillouin Zone
25%
Bulk Material
25%
Design Process
25%
Fiber Laser
25%
Fiber Nonlinearity
25%
Fiber Optics
100%
Illustrates
25%
Intensity Noise
25%
Light Propagation
25%
Nonlinearity
100%
Optic Effect
25%
Optical Systems
25%
Phase Noise
25%
Raman Spectra
25%
Signal Spectrum
25%
Strand
25%
System Input
25%
Telecommunication
25%
Waveguide
25%
Physics
Brillouin Scattering
25%
Fiber Laser
25%
Glass Fiber
100%
Optics
25%
Raman Spectra
25%
Telecommunication
25%
Waveguide
25%
Material Science
Fiber Laser
25%
Glass Fiber
100%
Waveguide
25%