## Proceedings of LFNM'...: International Workshop on Laser and Fiber-optical Networks Modeling, Volume 5Institution of Electrical and Electronics Engineers, 2003 - Fiber optics |

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Page 6

F = 0

In the paraxial limit , the NLS dark soliton is obtained : us ( 5,5 ) = u . ( A tanh® +

1F ' ) expl - ive ) expl = iu . " 5 = vos ) . ( 11 ) where © = U , A [ 5 + ( v - Fu.15 ] ( 12

) ...

F = 0

**corresponds**to Helmholtz black solitons , while \ Fl > 0 yields grey solitons .In the paraxial limit , the NLS dark soliton is obtained : us ( 5,5 ) = u . ( A tanh® +

1F ' ) expl - ive ) expl = iu . " 5 = vos ) . ( 11 ) where © = U , A [ 5 + ( v - Fu.15 ] ( 12

) ...

Page 9

Each configuration of copropagating interaction can be rotated by 90 ° to give a

bottom panel

panel .

Each configuration of copropagating interaction can be rotated by 90 ° to give a

**corresponding**description of ... For example , the case shown leftmost in thebottom panel

**corresponds**to the configuration of the rightmost plot in the toppanel .

Page 111

The points of intersection of the reflected beam with S2 screen and of the

counterpropagated beam with S1 screen

arcs are located at the points 02 , Oʻ2 for m = -1 and the arcs intersect at the

point ( kx ...

The points of intersection of the reflected beam with S2 screen and of the

counterpropagated beam with S1 screen

**correspond**to these points . Centers ofarcs are located at the points 02 , Oʻ2 for m = -1 and the arcs intersect at the

point ( kx ...

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### Contents

LFNM Plenary Sessions | 1 |

Extraction of Spectra and Theresholds from FullWave Lasing Eigenvalue Problems Invited | 19 |

Design and Evaluation of High Speed DBR Lasers for Analog and Digital Transmission Invited | 32 |

Copyright | |

21 other sections not shown

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### Common terms and phrases

active allows amplitude analysis angle application approximation beam calculated carrier cavity characteristics coefficient complex components computational considered constant corresponding coupling crystal decrease dependence described determined device dielectric diffraction direction dispersion distance distribution dynamics e-mail effective electric Electronics energy equation erbium fiber field Figure frequency function gain grating harmonic IEEE incident increase influence initial intensity interaction laser layer length light losses material measurements medium method mode modulation nonlinear normal numerical observed obtained operation optical output parameters periodic phase photonic photonic crystal Physics plane polarization possible presented problem propagation properties pulse pumping quantum radiation radius range REFERENCES reflection refractive index region resonance scattering shown shows signal simulation soliton solution spatial structure temperature thickness threshold transmission transverse Ukraine University VCSEL vector wave waveguide wavelength