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Characterization of Polarization Pulling in Fiber Optical Parametric Amplifiers
Shao Hao Wang
*
,
Alex Wai
*
Corresponding author for this work
Office of the President and Vice-Chancellor
Department of Physics
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peer-review
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Dive into the research topics of 'Characterization of Polarization Pulling in Fiber Optical Parametric Amplifiers'. Together they form a unique fingerprint.
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Keyphrases
Fiber Optical Parametric Amplifier
100%
Polarization Force
100%
Degree of Polarization
57%
Polarization Mode Dispersion
57%
Idler
42%
Dispersion Coefficient
42%
Polarization State
28%
Empirical Formula
14%
Conversion Efficiency
14%
Order of Magnitude
14%
Phase Mismatch
14%
Three-order
14%
Highly Similar
14%
Output Signal
14%
Fiber Type
14%
Pulling Effect
14%
Induced Phase
14%
Fiber Raman Amplifier
14%
Magnitude Change
14%
Parametric Gain
14%
Normalized Model
14%
Engineering
Optical Parametric Amplifier
100%
Polarization Mode
57%
Mode Dispersion
57%
Conversion Efficiency
14%
Output Signal
14%
Raman Amplifier
14%
State Output
14%
Physics
Glass Fiber
100%
Polarization Mode Dispersion
57%
Raman Fiber
14%
Earth and Planetary Sciences
Parametric Amplifier
100%
Idler
14%
Material Science
Glass Fiber
100%
Raman Fiber
14%