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APODIZER DESIGN TO EFFICIENTLY COUPLE LIGHT INTO A FIBER BRAGG GRATING
Jimmie Adriazola,
Roy H. Goodman
Mathematical Sciences
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Dive into the research topics of 'APODIZER DESIGN TO EFFICIENTLY COUPLE LIGHT INTO A FIBER BRAGG GRATING'. Together they form a unique fingerprint.
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Keyphrases
Fiber Bragg Grating
100%
Grating
100%
Apodizer
100%
Band Gap
40%
Design Parameters
20%
Control Framework
20%
Genetic Algorithm
20%
Bragg Gratings
20%
Optimal Control
20%
Transmission Efficiency
20%
Gradient Method
20%
Slow Light
20%
Central Frequency
20%
Grating Structure
20%
Gap Solitons
20%
Nonlinear Coherent States
20%
Cubic Nonlinearity
20%
Gradient Projection
20%
Slow Group Velocity
20%
Nonuniform Grating
20%
Bare Fiber
20%
Reflective Properties
20%
Forbidden Band
20%
Grating Design
20%
Physics
Solitary Wave
100%
Group Velocity
100%
Fiber Bragg Grating
100%
Bragg Gratings
100%
Genetic Algorithm
100%
Optimal Control
100%
Transmission Efficiency
100%
Engineering
Energy Gap
100%
Fiber Bragg Grating
100%
Transmissions
50%
Optimal Control
50%
Design Parameter
50%
Group Velocity
50%
Nonlinearity
50%
Bragg Cell
50%
Genetic Algorithm
50%
Gradient Descent Method
50%
Central Frequency
50%
Chemistry
Band Gap
100%