共查询到17条相似文献,搜索用时 187 毫秒
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基于受激布里渊散射的40 Gb/s时钟提取试验 总被引:1,自引:1,他引:0
对基于受激布里渊散射效应(SBS)的时钟恢复系统模型进行了试验验证,实现了40 Gb/s载波抑止归零码(CSRZ)的全光时钟提取.试验结果表明由于产生了强烈的受激布里渊散射的梳状放大特性,光信号的时钟分量得到显著增强.在不改变该模型结构的基础上,利用G.652普通单模光纤传输8 km而不经过色散补偿的40 Gb/s载波抑止归零码光信号恶化以后仍可进行良好地时钟恢复,时钟抖动小于6.5 ps.研究证明该方案可在一定程度上抵制传输信号恶化所造成的影响,并无明显的码型效应,适合高速长距离全光时钟提取. 相似文献
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提出了一种双通道全光非归零码/归零码调制格式转换的方案.该方案中,非归零码信号与同步的时钟抽取光共同注入到高性能非线性光纤中,由高性能非线性光纤构成的参量放大器把非归零码信号转换为归零码信号,同时不改变信号光的波长.实验论证了10Gb/s非归零码双通道的码型转换器.转换后的归零码信号的光信噪比略低于输入光信噪比,其脉冲... 相似文献
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利用TOAD实现10 Gbit/s全光非归零码到归零码的转换 总被引:2,自引:4,他引:2
利用从非归零(NRZ)信号中全光提取的时钟,采用太赫兹光非对称解复用器(TOAD)实现了10 Gbit/s非归零码到归零(RZ)码的码型转换。非归零信号采用半导体光放大器(SOA)进行时钟分量增强并用平面波导阵列(AWG)滤出相应的伪归零(PRZ)信号,然后采用半导体光放大器注入锁模光纤环形激光器进行时钟提取,提取的时钟信号和待转换的非归零信号分别作为抽运光和探测光输入太赫兹光非对称解复用器,在其中进行码型转换。转换后输出的归零信号的质量仅由恢复的时钟信号和非归零信号的质量决定,受太赫兹光非对称解复用器中半导体光放大器增益恢复时间的影响极小。实验测得转换后的归零信号消光比为8.7dB,码型效应非常低,其光谱明显展宽.并且出现谱间隔为0.08nm的多峰结构,与10 Gbit/s的比特速率相对应。该方法对时钟信号的码型效应有一定的容忍度。 相似文献
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基于光纤光参量放大的多通道全光非归零/归零码转换器 总被引:2,自引:0,他引:2
提出了一种基于光纤光参量放大器(FOPA)的多通道全光非归零码(NRZ)/归零码(RZ)调制格式转换的方案.该方案中,非归零码信号与同步的时钟抽运光共同注入到高非线性光纤(HNLF)中,由高非线性光纤构成的参量放大器把非归零码信号转换为归零码信号,同时不改变信号光的波长.多通道的码型转换器以两路10 Gb/s的非归零码进行了实验论证.转换后的归零码信号的信噪比(SNR)高于7.6 dB,其脉冲宽度约为30 ps,并且具有3dB的消光比(ER)提高.根据多通道码型转换器的实现原理,该码型转换器可以应用于40 Gb/s或更高比特率的多通道码型变换操作. 相似文献
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全光纤锁模腔结构的全光时钟提取实验研究 总被引:1,自引:0,他引:1
分析并实验验证了一种全光纤锁模激光器结构的全光时钟提取方案。方案中,采用高非线性光纤(HNLF)替代传统结构中的半导体光放大器(SOA),利用光纤中的交叉相位调制(XPM)效应实现腔内的非线性调制,避免了以SOA作为非线性光调制器件的锁模激光器全光时钟提取方案中,由于载流子恢复时间较长从而限制工作速率的缺点,以达到突破"电子瓶颈"的目的。理论分析了光纤中交叉相位调制的特性以及环形锁模腔的时钟提取原理,并通过实验,从40Gbit/s的光归零码(RZ)信号中提取出了高质量的光信号时钟。该方案可以直接在更高速率条件下工作。 相似文献
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基于级联半导体光放大器(SOA)实现全光逻辑与门的方案中,第一级输出信号质量直接影响逻辑与运算结果.采用载流子恢复较慢的体材料半导体光放大器用于第一级转换,在10 Gbit/s以上得不到理想的转换结果,限制了该方案实现逻辑与门的速率.利用光纤延时干涉仪(DI)和第一级半导体光放大器级联可以改善第一级输出信号质量,从而有效提高第二级全光逻辑与门的实现速率.阐述了改进方案中延时干涉仪的作用,并进行了数值模拟.根据实验结果,采用载流子恢复较慢的半导体光放大器级联延时干涉仪能够实现高速归零(RZ)信号和非归零(NRZ)信号的反码,从而得到较高速率的全光逻辑与门.实验实现了20 Gbit/s的伪随机归零和非归零信号的全光逻辑与门,对40 Gbit/s的结果进行了分析和讨论. 相似文献
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基于高精细度F-P滤波器的40Gb/s全光时钟提取 总被引:2,自引:1,他引:1
提出了一种基于高精细度Fabry-Perot(F-P)滤波器的全光时钟提取方案,并进行了实验验证。为了实现对信号波长无关的特性,系统利用光纤中交叉相位调制(XPM)效应对输入信号进行正码波长变换,使变换后的波长始终与F-P滤波器的透射峰精确对准。采用精细度为1 012的高精细度F-P滤波器提取时钟,并利用半导体光放大器(SDA)的自增益调制(SGM)效应进一步抑制时钟信号的低频噪声,保证了高质量的时钟输出。实验中,利用这种装置对40 Gb/s归零(RZ)码信号进行了时钟提取,得到了抖动为285 fs的高质量40 GHz时钟信号,验证了方案的可行性。 相似文献
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We experimentally investigated optical noise tolerance of a polarization-, wavelength-, and filter-free all-optical clock recovery system based on a monolithic mode-locked laser diode. The results showed that for input signal degradation, the jitter of the recovered clock did not degrade to approximately 8 dB/nm of the optical SNR. We also compared the clock recovery performance as functions of the wavelength and the modulation format (on-off keying and phase-shift keying) of the input data signals. We revealed that no significant changes were measured in the clock recovery performance despite such changes in the parameters of the input data signals, indicating that noise-tolerable clock recovery is expected, retaining the polarization- and the filter-free operations, regardless of the wavelength and the modulation format of the input data signals, by using our new scheme. 相似文献
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《Optical Fiber Technology》2006,12(1):59-70
For optical clock recovery of nonreturn-to-zero (NRZ) signals of more than 40 Gb/s, we propose and experimentally demonstrate a simple clock recovery scheme through beating process between the carrier frequency component and one of the clock frequency components in modulated NRZ signals. The proposed scheme consists of a circulator, a variable optical attenuator (VOA), and two fiber Bragg grating (FBG) filters. With FBG filters and a VOA, the proposed scheme can equalize the amplitudes of two extracted frequency components for a maximum clock-to-noise ratio (CNR). Through this scheme, we have squared the adjustment range of the VOA and achieved an enhanced CNR of more than 15 dB before the receiver in experiment. Bit error rate (BER) curves for back-to-back and 80 km transmissions showed that BERs of less than 10−11 can be obtained without error floors for both cases. We expect that the proposed scheme can operate as an efficient clock extraction system for high-speed optical communications. 相似文献
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Weiming Mao Al-Mumin M. Xinhong Wang Guifang Li 《Photonics Technology Letters, IEEE》2001,13(3):239-241
A scheme for all-optical enhancement of clock and clock-to-data suppression ratio of nonreturn-to-zero (NRZ) data based on self-phase modulation is proposed and demonstrated. More than 3-dB clock enhancement and 11-dB clock-to-data suppression ratio enhancement has been realized by a semiconductor optical amplifier (SOA) and fiber Bragg grating (FBG) in reflection. Clock enhancement of more than 6 dB is possible using a FBG in transmission. Using this technique, all-optical clock recovery from NRZ data has been demonstrated 相似文献
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A detailed characterization of the clock recovery properties of a self-pulsating, three-section distributed feedback laser is presented by directly comparing simulation and experimental results for the dependence of the RMS timing jitter of the recovered clock signal on important properties of the input signal. These properties include the duty cycle, peak power, extinction ratio, state-of-polarization, optical signal-to-noise ratio (OSNR), and waveform distortion due to residual group velocity dispersion and polarization mode dispersion. The permissible range for each of these is identified in terms of the RMS timing jitter of the recovered clock signal being less than 2 ps. In particular, the self-pulsating laser is effective for input signals degraded by amplified spontaneous emission noise as it provides this level of jitter performance for input OSNRs larger than 8.8 dB (0.1 nm noise bandwidth). 相似文献
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