Proceedings of LFNM ...Institution of Electrical and Electronics Engineers, 2005 - Fiber optics |
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Page 63
... region and is smeared out . However at real conditions the low boundary of high concentrations region exceeds 5-108 cm3 that corresponds to the lum average distance between the scattering particles . cm 60 ] 30 40 30 20 10 0 d , mm 0,15 ...
... region and is smeared out . However at real conditions the low boundary of high concentrations region exceeds 5-108 cm3 that corresponds to the lum average distance between the scattering particles . cm 60 ] 30 40 30 20 10 0 d , mm 0,15 ...
Page 118
... region . Such an assumption is logically justified because in the focal region the beam undergoes losses owing to nonlinear scattering and the self - focusing effect after focal region does not play an appreciable role . In view of ...
... region . Such an assumption is logically justified because in the focal region the beam undergoes losses owing to nonlinear scattering and the self - focusing effect after focal region does not play an appreciable role . In view of ...
Page 141
... region and smaller output power . 10 9 Rtop - mir - 6 μm Prop - mir - 8 μm 8 7 = 10 Reep - mirr Rtop - 12 m 5.0 19 4.5 18.5 4.0 E 18 3.5 6 3.0 2.5 2.0 1.5 1.0 1 0.5 Voltage , V Electron conc . x 1024 17.5 17 16.5 16 15.5 111 15 R = 6LM ...
... region and smaller output power . 10 9 Rtop - mir - 6 μm Prop - mir - 8 μm 8 7 = 10 Reep - mirr Rtop - 12 m 5.0 19 4.5 18.5 4.0 E 18 3.5 6 3.0 2.5 2.0 1.5 1.0 1 0.5 Voltage , V Electron conc . x 1024 17.5 17 16.5 16 15.5 111 15 R = 6LM ...
Contents
LFNM Plenary | 1 |
BatteryLess Spatial Optical Communication Terminals for LocationBased Indoor | 14 |
Resonant Photoproduction of the ElectronPositron Pair with Photon Emission | 27 |
Copyright | |
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active allows amplitude analysis application approximation band beam boundary calculated carrier cavity characteristics circuit coefficient considered corresponding coupled crystal curves dependence described determined device diffraction direction distribution e-mail effect efficiency electric Electronics elements energy equation error excitation experimental fiber field filter frequency function gain given grating IEEE increasing input intensity interval laser lattice layer length light limited losses maximum measurement medium method mirror mode modulation noise nonlinear observed obtained operation optical oscillator output parameters periodic phase photonic polarization possible presented problem propagation pulse pumping quantum radiation range REFERENCES reflection refractive index region resonator sample scattering semiconductor sensor shift shown shows signal simulation solitons solution spatial spectral spectrum structure surface temperature thickness transmission Ukraine University University of Guanajuato wave waveguide wavelength width