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Optical fibers --- Solitons --- Fibres optiques --- Pulses, Solitary wave --- Solitary wave pulses --- Wave pulses, Solitary --- Connections (Mathematics) --- Nonlinear theories --- Wave-motion, Theory of --- Light guides (Optical fibers) --- Fiber optics --- Fibers --- Optical materials --- Optical wave guides

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This book summarizes the proceedings of the invited talks presented at the International Symposium on New Trends in Optical Soliton Transmission Systems held in Kyoto during November 18 - 21, 1997. As a result of worldwide demand for ultra high bitrate transmissions and increased scientific interest from the soliton community, research on optical solitons in fibres has made remarkable progress in recent years. In view of these trends, the Research Group for Optical Soliton Communications (ROSC), chaired by Akira Hasegawa, was established in Japan in April 1995 to promote collaboration and information exchange among communication service companies, industries and academic circles in the theory and application of optical solitons. This symposium was organized as a part of the ROSC activities. As with the 1 st ROSC symposium, this symposium attracted enthusiastic response from worldwide researchers involved in the subject of soliton based communications and intensive discussions were held throughout the symposium. Particular emphases were made to dispersion managements of soliton transmission. I would like to note that in the }'t symposium the (adiabatic) dispersion managements just began to appear in reducing radiation at amplifiers and reducing collision effects in WDM system. These have become standard this time, but in addition new, non-adiabatic dispersion managements have been introduced independently by various scientists all over the world.

Optical communications --- Optical fibers --- Solitons --- Pulses, Solitary wave --- Solitary wave pulses --- Wave pulses, Solitary --- Connections (Mathematics) --- Nonlinear theories --- Wave-motion, Theory of --- Light guides (Optical fibers) --- Fiber optics --- Fibers --- Optical materials --- Optical wave guides --- Communications, Optical --- Light communications --- Photonics --- Telecommunication --- Materials science. --- Electrical engineering. --- Optics. --- Electrodynamics. --- Lasers. --- Photonics. --- Materials Science, general. --- Communications Engineering, Networks. --- Classical Electrodynamics. --- Characterization and Evaluation of Materials. --- Electrical Engineering. --- Optics, Lasers, Photonics, Optical Devices. --- New optics --- Optics --- Light amplification by stimulated emission of radiation --- Masers, Optical --- Optical masers --- Light amplifiers --- Light sources --- Optoelectronic devices --- Nonlinear optics --- Optical parametric oscillators --- Dynamics --- Physics --- Light --- Electric engineering --- Engineering --- Material science --- Physical sciences --- Optical communications. --- Solitons. --- Optical fibers.

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532.535 --- 532.535 Hydraulic jumps --- Hydraulic jumps --- Experimental nuclear and elementary particle physics --- Superconductors, Type II --- Irreversible processes --- Processus irréversibles --- Electroweak interactions --- Interactions électrofaibles --- Lattice dynamics. --- Point defects. --- Metals --- Continuum mechanics. --- Defects. --- Elementary particles --- Nuclear physics --- Mechanical properties of solids --- Physics --- Statistical physics --- Plasma physics --- Electronics and optics of solids --- Plasma frequencies. --- Surfaces --- Optical properties. --- Diffraction gratings. --- Light --- Plasmons (Physics). --- Surfaces (Physics). --- Scattering. --- Electronic excitation. --- 548.24 --- 548.24 Twins. Multiples. Crystal complexes --- Twins. Multiples. Crystal complexes --- 621.3.038.62 --- 621.3.038.62 Accelerators according to particles accelerated --- Accelerators according to particles accelerated --- 538.9 --- Physics of condensed matter (in liquid state and solid state) --- 539.17 --- 539.17 Nuclear reactions. Fission. Fusion. Chain reactions etc. --- Nuclear reactions. Fission. Fusion. Chain reactions etc. --- 531.19 --- 536.75 --- 536.75 Entropy. Statistical thermodynamics. Irreversible processes --- Entropy. Statistical thermodynamics. Irreversible processes --- 531.19 Statistical mechanics --- Statistical mechanics --- 539.12 --- 539.12 Elementary and simple particles (charge less than 3 including alpha-rays, beta-rays, gamma-rays as individual particles or as radiation) --- Elementary and simple particles (charge less than 3 including alpha-rays, beta-rays, gamma-rays as individual particles or as radiation) --- 538.91 --- 539.171 --- 539.171 Scattering: elastic, inelastic. Polarization --- Scattering: elastic, inelastic. Polarization --- 538.91 Structures, including transitions --- Structures, including transitions --- 53 --- 548.121 --- 548.121 Rotation. Axes of symmetry. Rotation axes --- Rotation. Axes of symmetry. Rotation axes --- 539.125.5 --- 539.125.5 Neutrons --- Neutrons --- 539.14 --- 539.14 Nuclei --- Nuclei --- 546.29 --- 546.29 Zerovalent elements --- Zerovalent elements --- 539.18 --- 539.18 Physics of single atoms --- Physics of single atoms --- Materials - Hydrogen content - Measurement --- Nuclear physics - Technique --- Helium - Thermal properties --- Scattering (Physics) --- Surfaces (Physics) --- Optical fibers --- Solitons --- Semiconductors --- Radiative transfer --- Transfert radiatif --- Superconductors --- Helium --- Materials --- Low energy electron diffraction. --- Exciton theory. --- Molecular crystals.