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Bistable behaviour of a detuned fabry-perot etalon with a gaussian input spatial profile under self-focusing and defocusing conditions
J. V. Moloney
Optical Sciences
Mathematics
Applied Mathematics - GIDP
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peer-review
20
Scopus citations
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Dive into the research topics of 'Bistable behaviour of a detuned fabry-perot etalon with a gaussian input spatial profile under self-focusing and defocusing conditions'. Together they form a unique fingerprint.
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Keyphrases
Beam Diffraction
100%
Bistable Behavior
100%
Computationally Efficient
50%
Defocus
50%
Fabry-Perot etalon
100%
Fast Fourier Transform
50%
Fresnel number
50%
Gaussian Input
100%
Nonlinear Medium
50%
Numerical Algorithms
50%
Propagation Effects
50%
Self-defocusing
100%
Self-focusing
100%
Spatial Profile
100%
Spatially Variable
50%
Steady State
50%
Switch-off
50%
Engineering
Bistables
100%
Fabry Perot
100%
Fast Fourier Transform
33%
Fresnel Number
33%
Gaussian Input
100%
Perot Etalon
100%
Physics
Etalons
100%
Gaussian Distribution
100%
Steady State
50%