## Proceedings of LFNM'...: International Workshop on Laser and Fiber-optical Networks Modeling, Volume 4Kharkiv State University of Radio Electronics, 2002 - Fiber optics |

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Page 19

In this case equation ( 10 ) becomes linear and its solution for forced oscillations (

sustained mode ) has next view X = Acos ( w : t + 0 ) ( 12 ) Where amplitude and

phase of oscillations are determined by the next

In this case equation ( 10 ) becomes linear and its solution for forced oscillations (

sustained mode ) has next view X = Acos ( w : t + 0 ) ( 12 ) Where amplitude and

phase of oscillations are determined by the next

**expressions**Vm0 Q = arctg 20 ...Page 35

Within the framework of the scalar theory of diffraction in the paraxial

approximation and using an

integral in a cylindrical form , for the component of a field on the input aperture of

a lens in position ...

Within the framework of the scalar theory of diffraction in the paraxial

approximation and using an

**expression**for a Fresnel - Kirchhoff diffractionintegral in a cylindrical form , for the component of a field on the input aperture of

a lens in position ...

Page 219

... The

= - ( EV ) In ê as Z @e dey alne @ In ê ez + ey azioz ox дх ду ( 6 ) The

for e , we obtain from the solutions for e and Z. Let us multiply the first equation ...

... The

**expression**for the componente , is possible to obtain from the equation VE= - ( EV ) In ê as Z @e dey alne @ In ê ez + ey azioz ox дх ду ( 6 ) The

**expression**for e , we obtain from the solutions for e and Z. Let us multiply the first equation ...

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### Contents

INV L1 NEW CONCEPT OF MULTIPASS RESONATORS FOR GAS AND | 1 |

L2 WIDEAPERTURE ELECTRODISCHARGE EXCIMER LASERS | 8 |

L4 POSSIBILITY OF HIGHFREQUENCY PULSE DISCHARGE | 17 |

Copyright | |

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absorption active allows amplitude angle applied axis beam calculated carried characteristics charge coefficient components considered constant corresponds crystals defined density dependence described determined devices diffraction direction discharge distribution effective electric electrons elements energy equal equation experimental expression factor fiber field frequency function gain given gratings IEEE increase intensity interaction Kharkov laser layer length light linear means measured medium method mirror mode modulation necessary nonlinear observed obtained operator optical output parameters particles periodic phase photonic physical plane polarization positive possible presented problem processes propagation properties pulse pumping quantum radiation range received References reflection refractive resonator scattering shown shows signal solution space spatial spectral structure surface temperature tion transformation Ukraine University vector volume vortex wave waveguide wavelength