What people are saying - Write a review
We haven't found any reviews in the usual places.
Polycrystalline Optical Fibers for the Middle Infrared Band
Mechanism of Volumetric Scattering on Micropores in Middle
Infrared Optical Fibers Based on Chalcogenide Glasses
9 other sections not shown
absorption amplification aperture Artyushenko backward pumping band beam birefringence chalcogenide glass coil compression crystals dB/km dB/m decrease defects diameter Dianov dislocations dispersion drawing rate effect electron energy experimental external resonator semiconductor extrusion factor fiber optic fiber ring interferometer fiber-optic fluoroplastic formation frequency function group velocity halides increase index of refraction influence intensity interference picture length measurement mechanical melt method micropores microscopic noise nonbridge oxygen atom nonlinear numerical aperture Optical Fibers Based optical losses organosilicon elastomer oscillations parameters phase modulation photosensor plastic deformation polarization polyamide polycrystalline optical fibers polymer coatings primary coating pumping current pumping pulse quartz quartz glass Raman Rayleigh scattering resonator semiconductor laser rotation Sagnac effect scattering semiconductor laser shaper SIEL significantly single-mode optical fiber soliton spectral spectrum SRS pulse Stokes pulse studied surface temperature Thallium Halide three-coordinated silicon atom transmission tuning characteristics values variation varnish wave wavelength width