## Proceedings of LFNM'...: International Workshop on Laser and Fiber-optical Networks Modeling, Volume 5Kharkiv State University of Radio Electronics, 2003 - Fiber optics |

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Page 26

+ resonance mode ” -a.c.Stark subsystem . The proper solution of the wave

equation in the case r = 0 , found without linear

but again in one - particle

energy ...

+ resonance mode ” -a.c.Stark subsystem . The proper solution of the wave

equation in the case r = 0 , found without linear

**approximation**in g , - the constantbut again in one - particle

**approximation**, shows a periodical exchange withenergy ...

Page 57

... the classical case ( 8 = 1 ) . The analysis of the found periodical solution of the

system ( 1 ) is made in linear

that allows the representation of the found solution in the following form : { x - x .

... the classical case ( 8 = 1 ) . The analysis of the found periodical solution of the

system ( 1 ) is made in linear

**approximation**by the low functional parameter &that allows the representation of the found solution in the following form : { x - x .

Page 216

... and modificated Bessel functions respectively . We may obtain the a - and ß

dependence on 2 from Eq . ( 5 ) of our model . To solve the problem we may use

the first

...

... and modificated Bessel functions respectively . We may obtain the a - and ß

dependence on 2 from Eq . ( 5 ) of our model . To solve the problem we may use

the first

**approximation**of perturbation theory considering the small contribution of...

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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 | |

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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