光纤通信中有色散影响的受激喇曼散射信道特性研究

提出了在波分复用光纤通信系统中，考虑光纤色散“走离”时受激喇曼散射(SRS)信道的新模型,给出了计算中距离步长的选取公式。根据该模型，数值计算了各信道在随机数字序列调制下和在受激喇曼散射(SRS)非线性效应作用下经过有色散“走离”的波分复用光纤系统的传输功率。得出光纤色散会降低SRS效应引起的输出功率波动的结论,画出了在SRS效应作用下输出功率标准差随色散系数变化的曲线，并对产生该现象的机理进行了定性分析。该模型适合于任意光纤色散、任意输入功率和任意信道数目。     

密集波分复用石英光纤中受激喇曼散射对信号光的影响

从石英光纤具有的近似线性喇曼增益的特点出发,给出了等信道间隔、等初始输入光子通量条件下前向N信道受激喇曼散射(SRS)稳态光子转换方程的解析解.这个解析解是在考虑了N个信号光之间串话下得到的,它适用于任意大小的信号光.同时指出,在传输过程中,SRS的作用使相邻信道的信号光光子通量保持等比性.公比值随光纤的有效作用距离、总的初始输入光子通量和对应于信道间隔的喇曼增益系数而变化.而总信号光光子通量可表示为N项等比级数.解析解与数值解进行了比较,两者取得了很好的一致 关键词：     

孤子光纤中拉曼自频移效应的研究

首次报道孤子光纤中拉曼自频移效庆的研究结果。对满足孤子光纤色散关系条件时含损耗，拉曼延迟效应的广义非线性薛定谔方程进行了微扰分析。求得了拉曼自频移关系表达式。发现改变光纤几何参数可以有效地控制孤子拉曼自频移。     

密集波分复用石英光纤通信系统中受激Raman散射的稳态分析模型

假设石英光纤的Raman增益谱为线性谱,并给出了拟合直线.以此为基础,得到了前向N信道 受激Raman散射稳态耦合波方程的解析解.这个解析解是在考虑了N个信号光之间串话下得到 的,它适用于任意功率大小的信号光和任意信道间隔排列的情况.N个信号光在石英光纤中经 过受激Raman散射作用后,具有以下特点：在传输过程中,任意两信道的信号光光子通量的比 值随光纤的有效互作用长度、总的输入光子通量和两信道频率间隔按指数规律变化.解析解 与数值解进行了比较,两者取得了很好的一致. 关键词： 受激Raman散射 密集波分复用 石英光纤 Raman放大     

两类喇曼光纤放大器的研究

以Photonic Transmission Design Suite(PTDS)仿真试验平台为基础，对单信道40Gb／s光纤传输系统中的两类RFA进行了研究和比较，并对各自系统进行了优化．最后指出，现有的依赖DCF进行色散补偿的方法在40Gb／s光纤传输系统中不再适用．     

两原子与双模腔场的多光子喇曼相互作用

研究了两个等同有效二能级原子与双模腔场的多光子喇曼相互作用，导出了双模腔场处于任意态时，该系统中两原子辐射谱的一般表达式，并分析了辐射谱的特点。     

喇曼放大器系统中光信噪比与传输码型相关性研究

分析研究了采用分布式光纤喇曼放大器的DWDM光纤传输系统中,瞬态泵浦消耗噪音对信号眼图、误码率等性能指标的影响,比较了不同比特率和信道数时这种噪音所带来的影响,给出了模拟仿真结果;分析并比较了瞬态泵浦消耗噪音与喇曼串扰噪音对系统性能影响的程度,同时分析了不同码型所对应的瞬态泵浦消耗噪音,发现归零码(RZ)具有更好的噪音特性.     

光孤子在色散缓变光纤中传输时的等价增益

从准非线性Ｓｃｈｒ?ｄｉｎｇｅｒ（ＮＬＳ）方程出发，导出了色散缓变光纤中光孤子脉冲传输所满足的与常规光纤中含增益效应等价的ＮＬＳ方程，给出了该方程的微扰解析解和光孤子脉冲宽度演化表达式。对于阶跃型单模光纤，得到了光纤几何参数与增益系数之间的一般函数关系。最后采用数值模拟方法模拟了不同色散缓变光纤中光孤子脉冲传输特性，指出色散缓变光纤不仅能补偿光纤损耗对孤子脉冲的展宽效应，而且能压缩光孤子脉冲，因而预计它可能有较广泛的应用前景。 关键词：     

抽运光谱宽度对喇曼光纤放大器的影响

采用受激喇曼散射（SRS）耦合波理论分析了抽运光谱宽度对喇曼光纤放大器的影响, 指出当采用宽光谱作抽运光时会降低抽运效率. 同时, 文中还给出了抽运光谱宽度、抽运光功率和抽运效率间的变化规律曲线, 得出当传输光纤的有效截面积越小、喇曼增益系数越大、抽运光的入纤功率和光谱线宽度越大时, 光谱抽运效率越小的结论.     

光纤传输系统中互相位调制和受激拉曼散射串扰噪声的比较研究Ⅱ--级联传输系统

在具有级联光放大器的密集波分复用强度调制一直接检测光纤系统中，导出了包含互相位调制和受激拉曼散射共同作用的强度／相位矩阵表达式。在计算强度噪声谱的基础上，研究了互相位调制和受激拉曼散射的相互耦合并用于密集波分复用系统的噪声分析。在带色散补偿的密集波分复用级联光纤传输系统中(如80信道，信道间距50GHz)，受激拉曼散射引入的串扰噪声功率可能超过互相位调制。最后，给出了密集波分复用系统分析与设计的若干建议。     

Analytical Model of Non-dispersion-limited Transient Stimulated Raman Scattering in Single-mode Silica Fiber in WDM Optical Communication System

1 IntroductionNowadays, fused silica fiber still is the most common fiber in wavelength divisionmultipleeing (WDM) OPtical commwhcation syStem. In the WDM system, themodulation type of input signal in one channel differs from another channel. FOrinstance, in the Ralnan fiber amplifiers, the pUmP is a continuous wave (CW) whilethe signals are pulse modulated. SO, when we study the SRS effect in the system, wemust take into account the different modulation type of signals. For a tWO-cha…     

Power limitations in fiber-optic frequency-division multiplexed systems

Launch power is limited to the milliwatt level by stimulated Brillouin scattering (SBS) in a single-channel, coherent fiber-optic network. Increasing the number of frequency-division multiplexed channels causes the power limit to decrease quickly to submilliwatt levels due to three-wave intermodulation to keep the signal-to-noise ratio from deteriorating significantly. As the number of channels increases, stimulated Raman scattering (SRS) begins to dominate. If a maximum of 0.5-dB depletion in the highest-frequency channel is allowed, SRS dominates when the number of multiplexed channels reaches about 300. Generally, the launch-power-limiting phenomenon is dependent on the number of channels being multiplexed.     

Power limitations in fiber-optic frequency-division multiplexed systems

Abstract

Launch power is limited to the milliwatt level by stimulated Brillouin scattering (SBS) in a single-channel, coherent fiber-optic network. Increasing the number of frequency-division multiplexed channels causes the power limit to decrease quickly to submilliwatt levels due to three-wave intermodulation to keep the signal-to-noise ratio from deteriorating significantly. As the number of channels increases, stimulated Raman scattering (SRS) begins to dominate. If a maximum of 0.5–dB depletion in the highest-frequency channel is allowed, SRS dominates when the number of multiplexed channels reaches about 300. Generally, the launch-power-limiting phenomenon is dependent on the number of channels being multiplexed.     

Analytical Model of Non-dispersion-limited Transient Stimulated Raman Scattering in Single-mode Silica Fiber in WDM Optical Communication System

The non-dispersion-limited analytic solutions of unidirectional N-channel transient stimulated Raman scattering (SRS) coupling wave equation which governing the propagation of the optical signals in single-mode (SM) silica fiber have been presented. Taking into account the SRS cross coupling among the N-channels, the analytic solutions are applicable to the system with arbitrary channel separation and input signal light power.     

Effect of spontaneous Raman scattering on quantum channel wavelength-multiplexed with classical channel

We quantitatively estimate the effect of spontaneous Raman scattering on a quantum channel wavelength-multiplexed with a classical channel. Based on an experiment that measured the generation power of spontaneous Raman scattering in a fiber, the performance of wavelength-multiplexed quantum key distribution (QKD) systems using the differential-phase-shift protocol is evaluated for various system conditions.     

Limitations Due to Er-Doped Optical Amplifier Noise and Stimulated Raman Scattering in Optic-Frequency Division Multiplexed Communications

In this paper, system limitations of an optic-frequency division multiplexed commu nication link are evaluated due to stimulated Raman scattering and noise in erbium-doped optical fiber amplifiers. It is shown that the product of the number of optical amplifiers and the gain (i.e., total gain) are limited by a factor that depends upon the number of channels, channel spacing and required signal-to-noise ratio (bit-error-rate), etc. Thus an indefinite increase in the number of amplifiers and or amplifier gain may not extend the repeaterless distance significantly while keeping the bit-error-rate above a minimum level. Numerical results show that appropriate choice of optical amplifier gain can improve the bit-error-rate of the worst effected channel without adding significant requirements on the receiver. However, large changes in the amplifier gain cannot be allowed if the receiver dynamic range is to be kept small.     

拉曼增益系数可分离光纤中的受激拉曼散射

给出了拉曼增益系数分离光纤的定义,在考虑了N个单色光之间的两两受激拉曼散射,得到了这种光纤中单向传输的N个不同的单色光之间的受激拉曼散射（SRS）稳态耦合波方程的解析解。它适用于各单色光功率任意大小、光频率分布不均匀时的一般情况。这一结果可应用于光纤通信系统、拉曼光纤放大器和拉曼光纤激光器的设计与分析。最后把解析解与数值解进行了比较,两者取得了很好的一致。     

Multi-wavelength Brillouin-Raman ring-cavity fiber laser with 22-GHz spacing

We experimentally demonstrate a multi-wave length Brillouin-Raman fiber laser configured in a ring-cavity resonator. Interactions between stimulated Brillouin scattering and Raman amplification in a dispersion compensating fiber, attributed to the generation of 16 output channels at injected Raman pump unit power of 650 mW and Brillouin pump power of 2.0 mW. The first output channel has a peak power of 14.8 mW. By discriminating the even-order Brillouin Stokes signals from circulating in the resonator, the generated output channels were found to have wavelength spacing of ∼22 GHz. The output channels were also found to have average optical signal-to-noise ratio value of 11.7 dB.