偏振复用极限状态及容差场分析

M. Kyselak, C. Vlcek
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引用次数: 3

摘要

全球通信不可避免地伴随着光路由容量的增加,这是现代数据网络设计者的主要目标之一。特别强调的是在使用现有的内置光学基础设施的同时增加容量。近年来,偏振分复用(PDM)技术已成为网络工程师关注的焦点,该技术在具有正交偏振态的单个波长上使用至少两个独立的数据通道。PDM正在成为大多数最先进的电信系统的标准。因此,现有技术允许使用多种极化状态。然而,最新的研究指出,新的先进PDM技术的出现,使用几十个极化态。本文对一般极化分复用的容差场进行了分析。它带来了新的结果,可以产生新的方法,为在电信中利用光的偏振特性开辟新的可能性。
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Analysis of Limit States and Tolerance Field of Polarization Multiplexing
Global communication is inevitably accompanied by increasing the capacity of optical routes, which is one of the main goals of modern data network designers. Particular emphasis is placed on increasing the capacities while using the existing builtin optical infrastructures. Recently, the attention of network engineers has been focused on the polarization division multiplexing (PDM) technology that uses at least two independent data channels on a single wavelength with orthogonal polarization states. PDM is becoming the standard in most state-of-the-art telecommunications systems. Thus, existing technologies allow multiple polarization states to be used. However, the latest research points to the emergence of new advanced PDM techniques using dozens of polarization states. The paper deals with the analysis of the tolerance field of general polarization division multiplexing. It brings new results that can yield new methods that will open up new possibilities for exploiting the polarization properties of light in telecommunications.
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