基于SOA的全光超宽带脉冲波形调制技术研究

提出一种基于半导体光放大器(SOA)中交叉增益调制效应(XGM)实现全光超宽带(UWB)脉冲波形调制(PSM)的新方案,只需要一个SOA,结构简单、易于集成;输出的PSM信号只含有一个波长,不需要色散介质引入时间差进行延时。利用OptiSystem7.0软件对方案进行了仿真,研究了调制信号的传输特性,并分析了各参数对调制信号的影响,得出优化范围。     

基于SOA和EAM的全光超宽带脉冲波形调制

提出了一种基于半导体光放大器(SOA)和电吸收调制器(EAM)实现超宽带(UWB)脉冲波形调制(PSM)的方案,利用SOA的交叉增益调制(XGM)和增益饱和效应产生高斯单边带(monocycle)信号,利用EAM的交叉吸收调制(XAM)效应控制泵浦光与monocycle信号的叠加,进而实现UWB PSM。与其它方案相比,本文方案具有结构简单、易于控制和色散管理相对简单的优势。利用OptiSystem7.0软件进行了仿真研究,分析了输入信号功率、调制速率和光源波长对UWB PSM信号的影响,研究了UWB PSM信号在光纤中的传输特性。结果表明,本文方案对输入信号波长不敏感。给出了输入信号功率和调制速率的优化范围。     

基于并联SOA的全光广播式超宽带脉冲形状调制技术

基于半导体光放大器(SOA)中交叉增益调制(XGM)效应,采用SOA的并联结构,提出了一种全光产生广播式超宽带(UWB)脉冲形状调制(PSM)信号的方案。该方案同时产生三路超宽带PSM信号,具有多用户传输数据的能力,可为多址通信作理论基础;采用相向的工作方式可以改善输出信号的消光比。利用OptiSystem7.0软件对方案进行仿真,分析了输入信号脉冲宽度、输入光功率和波长对产生的超宽带PSM信号的影响,对信号的传输特性进行了研究。结果表明,本文方案对输入信号脉冲宽度和输入光波长具有良好的容忍度,并且给出了输入光功率的优化范围。     

基于PM 的多功能超宽带调制技术的研究

基于相位调制器(PM)级联高斯带通滤波器,提出了一种超宽带(UWB)多功能调制方案,可以实现通断键控(OOK)、脉冲极性调制(PBM)和脉冲形状调制(PSM)。该方案结构简单,只需单个光源,利用率较高,仅改变比特序列发生器(BSG)的编码就可实现三种UWB调制格式间的灵活切换;产生的三种信号只包含一个波长,在光纤中传输时无需复杂的非线性控制和色散管理。使用光通信软件Optisystem进行模拟,研究了光源功率、调制速率以及两支路PM和滤波器系统误差的影响,对OOK、PBM和PSM信号的传输性能进行了分析。结果表明,光源功率和调制速率在一定范围内变化时,可以获得性能最佳的UWB调制信号。     

基于半导体光放大器的组播实验研究

提出了一种基于半导体光放大器(SOA)的组播实验方案,首先利用谱展宽和谱切片得到多波长脉冲源,将其作为探测光并与信号光共同注入到SOA中,利用SOA的交叉增益调制(XGM)效应,信号光与每一个波长的脉冲光发生作用,在SOA输出端通过可调光带通滤波器(TBDF)得到每一波长的变换后信号,实现光信号的组播过程。在实验中,10 Gb/s的归零(RZ)码作为信号光,而由多波长脉冲源产生的4波长脉冲光作为探测光,在探测光波长附近分别得到了与编码信号光逻辑取"非"的信号。     

脉冲在增益饱和半导体光放大器中的畸变

分析了半导体光放大器处于增益饱和状态下的自相位调制（SPM）效应对传输脉冲波形、相位的影响，其中着重考虑了不同脉冲指数（高斯脉冲和超高斯脉冲）以及不同脉宽（相对于载流子寿命）的情况。     

增益饱和半导体激光放大器中的自相位调制效应

本文分析了半导体激光放大器处于增益饱和状态下的自相位调制（SPM）效应,以及SPM效应对传输脉冲波形、相位及频谱的影响。指出了利用这种效应可以补偿传输光纤色散。但是,必须仔细选择传输系统的配置和放大器结构参数,以获得最佳色散补偿效果。     

基于半导体光放大器的光学向量矩阵乘法器的实现方法

提出了一种基于半导体光放大器(SOA)的光学向量矩阵乘法器(OVMM)的实现方法。与传统的向量矩阵乘法器相比,本文方法采用的是非空间光的实现方案,且SOA的增益补偿作用可对计算所得的光功率进行校正,从而提高计算精度。对提出的方法进行了1×2向量与2×2矩阵乘法运算的实验验证,结果表明可以实现向量矩阵乘法器的运算功能。利用SOA的大范围增益可调特性,可有效提高信号动态范围,利于多路信号间均匀性的改善,且易于集成。     

增益饱和的半导体激光放大器响应特性研究

详细讨论了行波半导体激光放大器工作在饱和状态时，入射脉冲的脉宽和放大器工作状态对放大脉冲的形状和频谱的影响，有利于更好地利用增益饱和的光放大器的非线性特性对光信号进行相位补偿。     

半导体光放大器增益饱和特性的研究

在理论上研究了行波半导体光放大器的增益饱和特性，并从半导体的单模速率方程出发，应用半导体光放大器的传输波动方程，推导了放大器的增益特性表达式。从中得出：当放大器的输出功率为饱和输出功率时，信号增益相对于不饱和增益降低４．３４ｄＢ。     

基于SOA中XGM效应全光超宽带高斯单边信号源的研究

提出了一种基于半导体光放大器（SOA）中交叉增益调制（XGM）效应产生高斯单边信号（monocycle）脉冲的方案。该方案只需要单个外部光源和单个SOA,结构简单;采用相向的工作方式可以改善输出信号的消光比;输出的monocycle信号光只含有一个波长,在光纤传输过程中上下脉冲不会引入时间差。利用Optisystern...     

All-optical ultra-wideband doublet signal source based on the cross-gain modulation in a semiconductor optical amplifier

We propose a novel scheme to generate the ultra-wideband (UWB) doublet signal pulse based on the cross-gain modulation (XGM) in a semiconductor optical amplifier (SOA). In the scheme, only an optical source and an SOA are needed. As there is only one wavelength included in the output doublet signal pulse, no time difference between the upper and down pulses is introduced during the transmission process. By using the software of Optisystem 7.0, the impacts of the optical power, the SOA current, the wavelength and the input signal pulse width on the generated doublet pulse are simulated and tudied numerically. The results show that when the pulse width of the input signal pulse is larger, the output signal pulse is better, and is insensitive to the change of wavelength. In addition, the ultra-wideband positive and negative monocycles can be generated by choosing suitable optical source power and SOA current.     

Generation of an ultra-wideband triplet signal based on semiconductor optical amplifier

We propose a novel ultra-wideband (UWB) triplet signal source based on the cross-gain modulation (XGM) in semiconductor optical amplifier (SOA). In the proposed scheme, only an optical source and two SOAs are needed, so the all-optical structure is compact. A triplet optical pulse with center frequency of 6.25 GHz and fractional bandwidth of 83% is obtained by the scheme. The extinction ratio can be improved by the counter-propagating scheme. The triplet pulse signal with only one wavelength can be easily controlled, and can aviod the dispersion effect. The output triplet pulse signal is insensitive to the light wavelength shifts, its available wavelength range is wide, the dynamic range of the input power is more than 6 dBm, and the bias current of the SOAs is exhibited.     

基于SOA-XGM的对称型UWB信号光学产生的研究

文章提出了两种利用SOA(半导体光放大器)的XGM(交叉增益调制)和FBG(光纤布拉格光栅)光学生成对称型UWB(超宽带)信号的新方法.分析了该方法的工作原理并进行了仿真实验,分别得到了符合FCC(美国联邦通信委员会)标准的中心频率为5.35 GHz、相对带宽为114％以及中心频率为4.7 GHz、相对带宽为132％的...     

Research of all-optical ultra-wideband triplet signal source based on a single semiconductor optical amplifier

A novel scheme for all-optical ultra-wideband triplet signal pulse generation based on the cross-gain modulation (XGM) in a single semiconductor optical amplifier (SOA) is demonstrated. In this scheme, only one optical source and one SOA are needed, so the configuration is simple. Due to only one wavelength is included in the generated triplet pulse, no time difference between output signal light and probe light is introduced during the transmission process. By using the software of Optisystem 7.0, the impacts of the input signal width, the optical power and the wavelength of the optical source on the generated triplet pulse are numerically simulated and studied. The results show that the proposed scheme has better triplet signal pulse when the input signal pulse width is larger, and it is insensitive to the wavelength change within a certain range.     

Cross-phase modulation in semiconductor optical amplifier

Cross-phase modulation in a semiconductor optical amplifier is demonstrated by using copropagating pump and probe pulse trains of different wavelengths. The relative time delay between the pump and probe pulses was varied and the effect on the spectral distortion is described.<>     

Optical transient waveform monitoring based on cross-gain modulation in semiconductor optical amplifier

An all-optical transient waveform equivalent time sampling system based on cross-gain modulation(XGM) in semiconductor optical amplifier(SOA) is presented.A noisy SOA dynamic model and PIN equivalent circuit function are employed for system evaluating.The results show this SOA-XGM sampler with subtracting postprocessing can achieve picosecond sampling window.The shape of sampling window can be adjusted by SOA bias current and amplitude of control pulse.Compared with amplified spontaneous emission(ASE) noise of SOA and thermal noise in PIN,the jitter of sampling control pulse causes most sampling error.Simulations show that this SOA-XGM sampler can be a capable candidate for transient waveform sampling.