Using non-deformation principle of soliton propagating over ultralong distance(fibers), the ultrahigh speed and ultralong hauls transmision system—optical soliton communication is developed.
利用光孤子传输长久不变形的原理,构成一种超高速、超长距离的光纤通信系统——光孤子通信系统。
Optical soliton is the most ideal carriers of information for communication system in optical fibers because of its peculiar character.
光孤子以其独特优点成为光纤通信系统中最理想的信息载体。
Optical soliton transmission is one of the popular research briskest subjects in modern optical communication technology.
当前光通信技术研究中的一个热点课题是光孤子传输。
In this dissertation, we focus on researching the performance of both linear high-speed optical fiber communication and soliton transmission system using PSA as in-line amplifier.
本论文提出把PS A作为在线放大器应用于线性高速光纤通信系统和光孤子系统。
And it predicts the application prospect of optical soliton in optical fiber communication integrating the results of optical soliton experiments in optical fiber communication during recent years.
并结合近年来光孤子光纤通信实验的结果,对未来光孤子光纤通信的实用前景作了预测。
Thereby, the application of the theory of soliton perturbations in optical fibre communication has significant scientific research value.
所以,孤子微扰理论在光纤通讯中的应用具有非常重要的科研应用价值。
At present, both linear high-speed optical fiber communication system and soliton transmission system are mostly using EDFA as in-line amplifier.
目前线性高速光纤通信系统和光孤子传输系统大多采用EDFA作为在线放大器来补偿光纤损耗导致的能量损失。
Optical soliton is not only an important research aspect, but also it has very important application foreground, which will be the new mold of optical communication and high speed full-optical switch.
光孤子不仅仅是一个重要的科学研究方向,它同时具有重要的应用前景,可能成为新一代的光通信传输模式和高速全光开关。
Optical soliton is not only an important research aspect, but also it has very important application foreground, which will be the new mold of optical communication and high speed full-optical switch.
光孤子不仅仅是一个重要的科学研究方向,它同时具有重要的应用前景,可能成为新一代的光通信传输模式和高速全光开关。
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