光时分复用器是光时分复用技术中很关键的一环。
Optical time division multiplexer is a key component in high-speed optical time division multiplexing communication system.
提出了一种大容量的WD M光时分复用网络的概念。
A novel WDM optical time division multiplexing network (OTDMN) with great capacity is discussed.
光时分复用(OTDM)技术是实现超大容量传输的最有希望的途径之一。
Optical time division multiplexing (OTDM) technology is one of the most promising way to achieve ultrahigh bit rate transmission.
介绍光时分复用(OTDM)超高速光通信系统的构成及近来国外发展趋势。
The configuration of OTDM extra-high speed communication systems and its recent developments in advanced countries have been introduced in this paper.
本文综述了光时分复用技术的特点、关键技术、研究现状、发展趋势和应用前景。
This article gives a comprehensive review of the enabling technologies, characteristics, the state -of - the - art of the development and the prospect of OTDM system.
本文采用变分法和数值方法研究了具有随机色散的光时分复用系统中色散管理孤子相互作用。
Dispersion-managed soliton interaction is investigated in an optical time-division multiplexed system with random dispersion map by the variational approach and the numerical simulation.
对于高速光时分复用系统来说,只有时延精度高,性能稳定的光时分复用器才能保障复用后高速信号的质量。
The time-delay accuracy and stability of the multiplexer have an important influence on the quality of multiplexed signals.
有理数谐波锁模技术是产生高速超短脉冲的重要技术之一,其光时分复用通信技术等领域中有重要的应用价值。
The rational harmonic mode-locking has become a research subject of intense interest due to its application on the generation of ultra- high repetition frequency optical pulse train.
有理数谐波锁模技术是产生高速超短脉冲的重要技术之一,其光时分复用通信技术等领域中有重要的应用价值。
The rational harmonic mode-locking has become a research subject of intense interest due to its application on the generation of ultra- high repetition frequency optical pulse train.
应用推荐