## Proceedings of LFNM'...: International Workshop on Laser and Fiber-optical Networks Modeling, Volume 6Institution of Electrical and Electronics Engineers, 2004 - Fiber optics |

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Page 98

This model describes kinetic processes in a thin layer gas ( CO2 ) the laser with

gaseous

dimensional monomode photon approximation . For an axial layer thickness up

to 5mm ...

This model describes kinetic processes in a thin layer gas ( CO2 ) the laser with

gaseous

**phototropic**modulator ( BC13 ) . This model ( Fig . 1 ) is one -dimensional monomode photon approximation . For an axial layer thickness up

to 5mm ...

Page 100

1 + > 70 ns tus b ) Figure 3 - Time diagramm laser pulses , modulated three -

level ( a ) and two - level ( b )

the three - level

...

1 + > 70 ns tus b ) Figure 3 - Time diagramm laser pulses , modulated three -

level ( a ) and two - level ( b )

**phototropic**media As it shown from Fig . 3 , usingthe three - level

**phototropic**media at influence of managing radiation by duration...

Page 103

This model describes kinetic processes in a thin layer gas ( CO2 ) the laser with

gaseous

dimensional monomode photon approximation . For an axial layer thickness up

to 5mm ...

This model describes kinetic processes in a thin layer gas ( CO2 ) the laser with

gaseous

**phototropic**modulator ( BC13 ) . This model ( Fig . 1 ) is one -dimensional monomode photon approximation . For an axial layer thickness up

to 5mm ...

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### Contents

L Lasers and Resonators | 11 |

Optically coupled lasers Invited | 11 |

Mathematical models applied to optical and thermal diagnostic of semiconductor | 17 |

Copyright | |

13 other sections not shown

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absorption active allows amplitude analysis angle aperture application approximation band beam calculated characteristics coefficient coherent components considered constant corresponds crystal defined density dependence described determined developed devices diffraction direction distance distribution e-mail effect efficiency electric electron elements emission energy equal equation excitation experimental expression fiber fibre field Figure frequency function given grating IEEE increase initial intensity interference Kharkiv laser layer length light losses material means measured medium method mirror mode modulation nonlinear observed obtained operation optical oscillators output parameters phase photon Physics plane polarization possible presented problem processes propagation properties pulse quantum radiation range received REFERENCES reflection refraction region relative resonator sample scattering shown shows signal solution spectral spectrum stability structure surface temperature Ukraine University wave waveguide wavelength