## Proceedings of LFNM ... |

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Page 3

Assuming a circular symmetry, we may write the non-linear diffusion equation [4] l

±(r*L)__Y__!NY>_ i(DL =__^_ (2) rdr{ dr) Dtnr D " g0NDrnrIs qdDN,,' for

normalized carrier

the ...

Assuming a circular symmetry, we may write the non-linear diffusion equation [4] l

±(r*L)__Y__!NY>_ i(DL =__^_ (2) rdr{ dr) Dtnr D " g0NDrnrIs qdDN,,' for

normalized carrier

**density**Y = N I Ntr in order to determine a gain and an index atthe ...

Page 33

rier

and backward fields in each section. Results and discussions The laser

parameters used in the modeling are given in Table 1. For the transient response

, ...

rier

**density**, and S(n) is the photon**density**which is calculated from the forwardand backward fields in each section. Results and discussions The laser

parameters used in the modeling are given in Table 1. For the transient response

, ...

Page 217

2 - Evolution of the stationary probability

for (p = 0 , K = 1 0" , and g calculated by (5): (a) a = -\ and (b) a = 0 . The situation

is changed with - 1 < a by involving the feedback energy owing to which the ...

2 - Evolution of the stationary probability

**density**of the amplitude by increasing yfor (p = 0 , K = 1 0" , and g calculated by (5): (a) a = -\ and (b) a = 0 . The situation

is changed with - 1 < a by involving the feedback energy owing to which the ...

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### Contents

LFNM Plenary | 1 |

BatteryLess Spatial Optical Communication Terminals for LocationBased Indoor | 14 |

Resonant Photoproduction of the ElectronPositron Pair with Photon Emission | 27 |

Copyright | |

21 other sections not shown

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amplitude angle approximation band bandwidth Bragg broadening calculated capture efficiency carrier frequency cavity characteristics circuit coefficient corner reflector corresponding crystal oscillator curves density dependence device dielectric diffraction dispersion distribution e-mail effect electric emission energy equation error excitation experimental FDTD field filter function gain spectrum Gaussian grating IEEE input intensity interaction investigated Keywords Kharkiv Kharkiv National University laser lattice layer light beams linear maximum measurement medium method mode modulation National University noise nonlinear obtained operation optical fiber output parameters phase phase noise photodetector photonic photonic crystal piezoelectric polarization Proc propagation pulse pumping current quantum quartz radiation Raman gain range reflection reflector refractive index region resonator sample scattering semiconductor sensor shown signal simulation solitons solution spectral structure surface synchronization temperature thickness transmission Ukraine University of Guanajuato University of Radio values VCSEL voltage wave waveguide wavelength width