Optical Combs for High-Capacity Transmission and Energy-Optimization of Long-Haul Fiber Cables

L. Oxenløwe
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Abstract

That an optical comb-source can be used as a multi-carrier source for data transmission is an almost 20 year old notion, first carried out with fibre-based supercontinuum sources to carry on-off-keying (OOK) modulated data [1]. This technique was expanded to support more than 100 WDM channels [2]. Fibre-based comb sources were optimised to enable coherent transmission over 75 nm [3] with 1520 individual comb lines from one source. Very spectrally-efficient data formats could also be supported [4–5], essentially proving that combs are perfectly compatible with the most advanced communication systems, and even used for investigations of extremely high data rates in the Pbit/s domain [6–7]. Planar optical ring resonators (ORRs) are compact integrated comb sources, which have potential to make practical integrated transmitters including the comb source, and were first suggested and demonstrated in 2009 [8–9]. Soon after came the first demonstrations that these types of combs could also carry OOK data [10], and later that they could indeed also support coherent data formats [11] and to very high data rates [12]. Integrated combs based on ORRs generally suffer from low comb-line power, and new structures were developed to increase the conversion efficiency, such as soliton crystals [13] and dark Kerr combs [14], and demonstrations were made to show that such combs could also support long-haul links [15]. We wanted to investigate the impact of the limited comb-line power on the data-carrying capacity, and found that hundreds of terabit/s could be supported by a supercontinuum-based chip-scale comb source [16], and recently made a rigorous analysis showing that integrated comb sources can support tens of petabit/s [17], and that these sources may prove very energy-efficient. In this presentation, I will also present results on reach implications using integrated combs.
用于大容量传输和长途光缆能量优化的光梳
光梳状源可以作为多载波源用于数据传输,这是一个近20年前的概念,最初是用基于光纤的超连续谱源来传输键控开关(OOK)调制数据。该技术已扩展到支持100多个WDM信道。基于光纤的梳状源经过优化,能够在75 nm[3]范围内实现1520条单独梳状线的相干传输。还可以支持非常频谱高效的数据格式[4-5],从本质上证明了梳子与最先进的通信系统完全兼容,甚至可以用于Pbit/s域中极高数据速率的研究[6-7]。平面光学环形谐振器(orr)是一种紧凑的集成梳状源,具有制造包括梳状源在内的实用集成发射机的潜力,于2009年首次被提出并论证[8-9]。不久之后,第一次演示表明,这些类型的梳也可以携带OOK数据[10],后来,它们确实也可以支持一致的数据格式[11]和非常高的数据速率[12]。基于orr的集成梳普遍存在梳线功率低的问题,为了提高转换效率,开发了新的结构,如孤子晶体[13]和暗克尔梳[14],并进行了演示,表明这种梳也可以支持长途链路[15]。我们想要研究有限的梳线功率对数据承载能力的影响,并发现基于超连续体的芯片级梳源[16]可以支持数百太比特/秒,并且最近进行了严格的分析表明,集成梳源可以支持数十拍比特/秒的[17],并且这些源可能被证明是非常节能的。在这次演讲中,我还将介绍使用集成梳子的影响结果。
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