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Multicore photonic crystal fiber based intensity splitters/couplers
Dror Malka
,
Zeev Zalevsky
Bar-Ilan University - The Alexander Kofkin Faculty of Engineering
Electro-Optics (BIU Engineering)
Holon Institute of Technology
Research output
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Chapter in Book/Report/Conference proceeding
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Chapter
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peer-review
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Dive into the research topics of 'Multicore photonic crystal fiber based intensity splitters/couplers'. Together they form a unique fingerprint.
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Keyphrases
Fiber-based
100%
Coupler
100%
Splitter
100%
Multi-core Photonic Crystal Fiber
100%
Photonic Crystal Fiber
66%
Optical Signal
66%
Fiber Structure
66%
High Ratio
33%
Numerical Simulation
33%
Physical Condition
33%
Air Hole
33%
Coupling Coefficient
33%
Coupled Mode Theory
33%
Splitting Method
33%
Propagation Distance
33%
Optical Splitter
33%
Beam Propagation Method
33%
Engineering
Photonic Crystal Fibers
100%
Optical Signal
40%
Computer Simulation
20%
Air Hole
20%
Distance Propagation
20%
Central Core
20%
Coupling Coefficient
20%
Material Science
Photonic Crystal Fiber
100%
Fiber Structure
40%