Advances in Fiber Optics
1-1 March 2000
Moscow, Russian Federation
Technology and Fundamental Properties of Silica Optical Fibers
Proc. SPIE 4083, Nitrogen-doped silica fibers and fiber-based optoelectronic components, (17 May 2000);doi: 10.1117/12.385634
Proc. SPIE 4083, Fabrication and investigation of single-mode highly phosphorus-doped fibers for Raman lasers, (17 May 2000);doi: 10.1117/12.385645
Proc. SPIE 4083, Electrostrictive response in single-mode ring-index profile fibers, (17 May 2000);doi: 10.1117/12.385652
Proc. SPIE 4083, Hydroxyl groups in high-purity glasses for fiber optics I: silica glasses, (17 May 2000);doi: 10.1117/12.385653
Proc. SPIE 4083, Hydroxyl groups in high-purity glasses for fiber optics II: phosphosilicate glasses, (17 May 2000);doi: 10.1117/12.385654
Proc. SPIE 4083, Hydroxy groups in high-purity glasses for fiber optics III: germanosilicate glasses, (17 May 2000);doi: 10.1117/12.385655
Proc. SPIE 4083, Influence of recent high-speed strength testing data on the concept of reliability of optical fiber in telecommunication line, (17 May 2000);doi: 10.1117/12.385656
Proc. SPIE 4083, IR absorption spectra in high-purity silica glasses fabricated by different technologies, (17 May 2000);doi: 10.1117/12.385657
Proc. SPIE 4083, Thermal effect of stimulated Raman scattering in silica optical fibers, (17 May 2000);doi: 10.1117/12.385658
Fiber Lasers and Amplifiers
Proc. SPIE 4083, Raman fiber amplifiers, (17 May 2000);doi: 10.1117/12.385635
Proc. SPIE 4083, CW highly efficient 1.24-um Raman laser based on low-loss phosphosilicate fiber, (17 May 2000);doi: 10.1117/12.385637
Proc. SPIE 4083, 1.43-um fiber laser for medical applications, (17 May 2000);doi: 10.1117/12.385639
Photorefractive Effect and Second-Order Nonlinearity in Silica Optical Fibers
Proc. SPIE 4083, Photoinduced refractive index subgratings in germanosilicate optical fibers, (17 May 2000);doi: 10.1117/12.385640
Proc. SPIE 4083, Photorefractive effect and photoinduced x(2) grating formation in germanosilicate core fibers codoped with nitrogen in MCVD process, (17 May 2000);doi: 10.1117/12.385641
Proc. SPIE 4083, Mechanism of excitation and quenching of 3.15-eV luminescence in germanosilicate glass, (17 May 2000);doi: 10.1117/12.385642
Proc. SPIE 4083, Photostructural transformations in doped silica glass: physical ideas based on numerical modeling of point defects, (17 May 2000);doi: 10.1117/12.385643
Proc. SPIE 4083, Hydrogen and photostructural processes in silica and germanosilicate glass, (17 May 2000);doi: 10.1117/12.385644
Special Fibers and Sensors
Proc. SPIE 4083, Radiation-resistant and radiation-sensitive silica optical fibers, (17 May 2000);doi: 10.1117/12.385646
Proc. SPIE 4083, Single-mode fibers with an additional ring lightguide for two-channel data transmission, (17 May 2000);doi: 10.1117/12.385647
Proc. SPIE 4083, Long-period refractive index fiber gratings: properties, applications, and fabrication techniques, (17 May 2000);doi: 10.1117/12.385648
Proc. SPIE 4083, Temperature sensor based on fiber Bragg grating, (17 May 2000);doi: 10.1117/12.385649
Proc. SPIE 4083, Low-loss infrared arsenic-chalcogenide glass optical fibers, (17 May 2000);doi: 10.1117/12.385650
Proc. SPIE 4083, Crystalline silver halide fibers with optical losses lower than 50 dB/km in broad IR region and their applications, (17 May 2000);doi: 10.1117/12.385651
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